ENVIRONMENTAL IMPACT ASSESSMENT STUDY FOR REFINERY EXPANSION FROM 3.0 TO 9.0 MMTPA OF M/s NUMALIGARH REFINERY LIMITED, NUMALIGARH, ASSAM Report No.: B238-17-42-EIA-1901(R1) February, 2020 Project Proponent: Environmental Consultant: Category- A VOLUME- I Sector-10 (NABET), Category 4 (a) (MoEFCC) File No. J-11011/274/2015-IA II (I) EIL - CERTIFICATE NO.: NABET/EIA/1619/RA 0041
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ENVIRONMENTAL IMPACT ASSESSMENT
STUDY FOR REFINERY EXPANSION FROM 3.0 TO 9.0 MMTPA OF
M/s NUMALIGARH REFINERY LIMITED, NUMALIGARH, ASSAM
VOLUME- I Sector-10 (NABET), Category 4 (a) (MoEFCC)
File No. J-11011/274/2015-IA II (I) EIL - CERTIFICATE NO.: NABET/EIA/1619/RA 0041
Template No. 5-0000-0001-T2 Rev. 1 Copyrights EIL – All rights reserved
EIA STUDY FOR REFINERY EXPANSION
FROM 3.0 TO 9.0 MMTPA OF M/S
NUMALIGARH REFINERY LIMITED,
NUMALIGARH, ASSAM
Document No. B238-17-42-EIA-1901
Rev. No. 1
EIA STUDY FOR REFINERY EXPANSION FROM 3.0
TO 9.0 MMTPA OF
M/S NUMALIGARH REFINERY LIMITED,
NUMALIGARH, ASSAM
1 12.02.2020 ISSUED FOR COMMENTS RS CP JKJ
0 18.07.2019 ISSUED FOR COMMENTS RS CP JKJ
Rev. No Date Purpose Prepared by Reviewed
by Approved
by
Page 1 of 2
DECLARATION BY EXPERTS CONTRIBUTING TO THIS REPORT
Declaration by Experts contributing to the EIA Study Report for Refinery Expansion from 3.0 to 9.0 MMTPA of M/s Numaligarh Refinery Limited, Numaligarh, Assam I, hereby, certify that I was a part of the EIA team in the following capacity that developed the above EIA {(Category A – “Petroleum Refining Industry”; Sector 10 as per NABET Scheme & Category 4 (a) (MoEFCC)} as per 2006 EIA Notification. EIA COORDINATOR: Name: Mr. J.K.Joshi
Signature & Date: Period of involvement: January, 2019 – November, 2019 Contact information: Mob - 9818669575 Email: [email protected] FUNCTIONAL AREA EXPERTS:
Sr. No.
Functional Areas
Name of the experts
Involvement (Period & Task) Signature &
Date
1. AP Jayant Kumar Joshi
January, 2019 – November, 2019 Estimation of fugitive emissions, Identification of impacts on AP and suggesting mitigation measures.
2. WP Parveen Kumar Goel
January, 2019 – November, 2019 Review of proposed water requirements for the project, verification and analysis of baseline data, impact assessment, and preparation of environmental management plan for water environment.
3. SHW Jayant Kumar Joshi
January, 2019 – November, 2019 Identification of storage and disposal of solid and hazardous waste for the proposed plant. Finalisation of Environmental Monitoring Plan and Environmental Management Plan.
4. SE Raja Subbaratna Prasad
January, 2019 – November, 2019 Review of demographic characteristics, and supervision of baseline data collection. Collection and analysis of perception study carried out for the proposed project.
January, 2019 – November, 2019 Site visit, collection and analysis of baseline data on flora and fauna, impact assessment of the study area, preparation of greenbelt development plan and environmental management plan for biological environment.
6. HG Parveen Kumar Goel
January, 2019 – November, 2019 Assessment of ground water sampling results with available secondary data to interpret current conditions.
7. AQ Raja
Subbaratna Prasad
January, 2019 – November, 2019 Verification of meteorological data, air quality assessment, air quality modelling with prediction and impact assessment, Preparation of environmental management plan for the proposed fertilizer plant.
8. NV S.V.R. Subramanyam
January, 2019 – November, 2019 Verification of noise and traffic baseline data, impact assessment, Preparation of environmental management plan for noise environment.
9. LU Raja Subbaratna Prasad
January, 2019 – November, 2019 Procurement of Land use land cover map and compared at ground level. The present land cover in which plant is about to come is analyzed.
10. RH P.Jayakumar January, 2019 – November, 2019 The Rapid Risk Assessment Report is prepared for the proposed revival of Ramagundam Fertilizer Unit at Ramagundam considering all safety measures.
Declaration by the head of the Accredited Consultant Organization/authorized person: I, R.B.Bhutda, hereby, confirm that the above mentioned experts prepared the EIA Study Report for Refinery Expansion from 3.0 to 9.0 MMTPA of M/s Numaligarh Refinery Limited, Numaligarh, Assam. I also confirm that the consultant organization shall be fully accountable for any misleading information mentioned in the statement.
Signature: Name: Mr. J.K.Joshi Designation: Head – Environment, Water & Safety Division Name of the EIA Consultant Organization: Engineers India Limited
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TOR Points Compliance for Proposed Refinery Expansion of NRL
Sl. No.
Statement Status
Standard TOR
1. Executive summary of the project Included in EIA report.
2. Introduction i. Details of the EIA Consultant including
NABET accreditation
ii. Information about the project proponent iii. Importance and benefits of the project
Details are given in section 1.1 of Chapter-1. Details are given in section 1.2.1 of Chapter-1. Details are given in section 1.3.3 of Chapter-1.
3.
Project Description
i) Cost of project and time of completion.
ii) Products with capacities for the proposed project.
iii) If expansion project, details of existing products with capacities and whether adequate land is available for expansion, reference of earlier EC if any.
iv) List of raw materials required and their source along with mode of transportation
v) Other chemicals and materials required
with quantities and storage capacities
vi) Details of Emission, effluents, hazardous waste generation and their management
vii) Requirement of water, power, with source of supply, status of approval, water balance diagram, man-power requirement (regular and contract)
viii) Process description along with major equipment’s and machineries, process flow sheet (quantities) from raw material to products to be provided.
ix) Hazard identification and details of
proposed safety systems.
x) Expansion/modernization proposals: a. Copy of all the Environmental Clearance(s)
Details given in section 1.4 of Chapter-1. The same is given in section 2.2 of Chapter 2. The same is given in section 2.1 of Chapter 2. The same is given in section 2.2.2 of Chapter 2. Storage of material and products are given in section 2.2.4 of Chapter 2. Details of emission, effluents and hazardous waste are given in section 2.2.8 of Chapter 2. Details of proposed project with utilities are given in table 2.7 of Chapter 2. Process description of proposed project is given in section 2.2 Chapter 2. The same is covered in rapid risk assessment report and attached in Annexure-XI. Copies of all compliance of previous environmental clearances are attached in
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including Amendments thereto obtained for the project from MOEF/SEIAA shall be attached as an Annexure. A certified copy of the latest Monitoring Report of the Regional Office of the Ministry of Environment and Forests as per circular dated 30th May, 2012 on the status of compliance of conditions stipulated in all the existing environmental clearances including Amendments shall be provided. In addition, status of compliance of Consent to Operate for the ongoing I existing operation of the project from SPCB shall be attached with the EIA-EMP report.
b. In case the existing project has not obtained environmental clearance, reasons for not taking EC under the provisions of the EIA Notification 1994 and/or EIA Notification 2006 shall be provided. Copies of Consent to Establish/ No Objection Certificate and Consent to Operate (in case of units operating prior to EIA Notification 2006, CTE and CTO of FY 2005-2006) obtained from the SPCB shall be submitted. Further, compliance report to the conditions of consents from the SPCB shall be submitted.
Annexure I. Not Applicable
4. Site Details i) Location of the project site covering
village, Taluka/Tehsil, District and State, Justification for selecting the site, whether other sites were considered.
ii) A toposheet of the study area of radius of 10km and site location on 1:50,000/1:25,000 scale on an A3/A2 sheet. (including all eco-sensitive areas and environmentally sensitive places)
iii) Details w.r.t. option analysis for selection of site
iv) Co-ordinates (lat-long) of all four corners of the site.
v) Google map-Earth downloaded of the project site.
vi) Layout maps indicating existing unit as well as proposed unit indicating storage area, plant area, greenbelt area, utilities etc. If located within an Industrial area/Estate/Complex, layout of Industrial Area indicating location of unit within the Industrial area/Estate.
vii) Photographs of the proposed and existing (if applicable) plant site. If existing, show photographs of plantation/greenbelt, in particular.
viii) Landuse break-up of total land of the
Location of the project site is given in section 1.3.2 of Chapter 1. Location on map has been provided in figure 1.2 of Chapter-1. No alternative site has been selected. Coordinates of project site is located at
latitude 26⁰ 37’ 30” N and longitude of 93⁰ 43’ 30” E Longitude Google Earth image is given in Chapter 1. Layout plan is provided in Annexure-VII. Provided in EIA report. Provided in Section 1.3.2 in Chapter-1.
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project site (identified and acquired), government/private - agricultural, forest, wasteland, water bodies, settlements, etc shall be included. (not required for industrial area).
ix) A list of major industries with name and
type within study area (10 km radius) shall be incorporated. Land use details of the study area.
x) Geological features and Geo-
hydrological status of the study area shall be included.
xi) Details of Drainage of the project upto 5km radius of study area. If the site is within 1 km radius of any major river, peak and lean season river discharge as well as flood occurrence frequency based on peak rainfall data of the past 30 years. Details of Flood Level of the project site and maximum Flood Level of the river shall also be provided. (mega green field projects).
xii) Status of acquisition of land. If acquisition is not complete, stage of the acquisition process and expected time of complete possession of the land.
xiii) R&R details in respect of land in line with state Government policy
Provided in Annexure-VIII. Provided in Annexure-VIII. Provided in Annexure-VIII. Not Applicable. Not Applicable.
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5. Forest and wildlife related issues (if applicable):
i) Permission and approval for the use of forest land (forestry clearance), if any, and recommendations of the State Forest Department. (if applicable)
ii) Land use map based on High resolution satellite imagery (GPS) of the proposed site delineating the forestland (in case of projects involving forest land more than 40 ha)
iii) Status of Application submitted for obtaining the stage I forestry clearance along with latest status shall be submitted.
iv) The projects to be located within 10 km of the National Parks, Sanctuaries, Biosphere Reserves, Migratory Corridors of Wild Animals, the project proponent shall submit the map duly authenticated by Chief Wildlife Warden showing these features vis-à-vis the project location and the recommendations or comments of the Chief Wildlife Warden-thereon.
v) Wildlife Conservation Plan duly authenticated by the Chief Wildlife Warden of the State Government for conservation of Schedule I fauna, if any exists in the study area.
Copy of application submitted for clearance under the Wildlife (Protection) Act, 1972, to the Standing Committee of the National Board for Wildlife.
Not Applicable
6. Environmental Status i) Determination of atmospheric inversion
level at the project site and site-specific micro-meteorological data using temperature, relative humidity, hourly wind speed and direction and rainfall.
ii) AAQ data (except monsoon) at 8 locations for PM10, PM2.5, SO2, NOX, CO and other parameters relevant to the project shall be collected. The monitoring stations shall be based CPCB guidelines and take into account the pre-dominant wind direction, population zone and sensitive receptors including reserved forests.
iii) Raw data of all AAQ measurement for 12 weeks of all stations as per frequency given in the NAQQM Notification of Nov.
Site specific meteorological data is given in section 3.2.1 of Chapter 3. It is given in section 3.2.4 of Chapter 3. It is given in section 3.2 of Chapter 3.
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2009 along with – min., max., average and 98% values for each of the AAQ parameters from data of all AAQ stations should be provided as an annexure to the EIA Report.
iv) Surface water quality of nearby River (100m upstream and downstream of discharge point) and other surface drains at eight locations as per CPCB/ MoEFCC guidelines.
v) Whether the site falls near to polluted stretch of river identified by the CPCB/ MoEFCC, if yes give details.
vi) Ground water monitoring at minimum at 8 locations shall be included.
vii) Noise levels monitoring at 8 locations within the study area.
viii) Soil Characteristic as per CPCB guidelines.
ix) Traffic study of the area, type of vehicles, frequency of vehicles for transportation of materials, additional traffic due to proposed project, parking arrangement etc.
x) Detailed description of flora and fauna (terrestrial and aquatic) existing in the study area shall be given with special reference to rare, endemic and endangered species. If Schedule-I fauna are found within the study area, a Wildlife Conservation Plan shall be prepared and furnished.
xi) Socio-economic status of the study area.
It is given in section 3.4.2 of Chapter 3. Not Applicable It is given in section 3.4.2 of Chapter 3. It is given in section 3.3 of Chapter 3. It is given in section 3.5 of Chapter 3. It is given in section 3.3 of Chapter 3. It is given in section 3.6 of Chapter 3. It is given in section 3.7 of Chapter 3.
7. Impact and Environment Management Plan i) Assessment of ground level
concentration of pollutants from the stack emission based on site-specific meteorological features. In case the project is located on a hilly terrain, the AQIP Modelling shall be done using inputs of the specific terrain characteristics for determining the potential impacts of the project on the AAQ. Cumulative impact of all sources of emissions (including transportation) on the AAQ of the area shall be assessed. Details of the model used and the input data used for modelling shall also be provided. The air quality contours shall be plotted on a location map showing the location of project site, habitation nearby, sensitive receptors, if any.
AQIP Modeling is given in section 4.3.2 of Chapter 4. Provided in Chapter-4.
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ii) Water Quality modelling – in case of
discharge in water body iii) Impact of the transport of the raw
materials and end products on the surrounding environment shall be assessed and provided. In this regard, options for transport of raw materials and finished products and wastes (large quantities) by rail or rail-cum road transport or conveyor-cum-rail transport shall be examined.
iv) A note on treatment of wastewater from different plant operations, extent recycled and reused for different purposes shall be included. Complete scheme of effluent treatment. Characteristics of untreated and treated effluent to meet the prescribed standards of discharge under E (P) Rules.
v) Details of stack emission and action plan for control of emissions to meet standards
vi) Measures for fugitive emission control
vii) Details of hazardous waste generation and their storage, utilization and management. Copies of MOU regarding utilization of solid and hazardous waste in cement plant shall also be included. EMP shall include the concept of waste minimization, recycle/reuse/recover techniques, Energy conservation, and natural resource conservation.
viii) Proper utilization of fly ash shall be ensured as per Fly Ash Notification, 2009. A detailed plan of action shall be provided.
ix) Action plan for the green belt development plan in 33 % area i.e. land with not less than 1,500 trees per ha. Giving details of species, width of plantation, planning schedule etc. shall be included. The green belt shall be around the project boundary and a scheme for greening of the roads used for the project shall also be incorporated.
x) Action plan for rainwater harvesting measures at plant site shall be submitted to harvest rainwater from the roof tops and storm water drains to recharge the ground water and also to use for the
Not Applicable Provided in section 4.8.2 of Chapter-4. Provided in Chapter-4. Given in section 4.3.2 of chapter-4. Given in section 4.3.1.4 of chapter-4. Provided in section 2.2.8 & Energy conservation, and natural resource conservation plan given in Annexure-IX. Not applicable Greenbelt programme is given in section 10.4.5 of chapter-10. Cost has been considered in EMP. Rainwater harvesting measures will be provided during Detailed engg. stage
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various activities at the project site to conserve fresh water and reduce the water requirement from other sources.
xi) Total capital cost and recurring cost/annum for environmental pollution control measures shall be included.
xii) Action plan for post-project environmental monitoring shall be submitted.
xiii) Onsite and Offsite Disaster (natural and
Man-made) Preparedness and Emergency Management Plan including Risk Assessment and damage control. Disaster management plan should be linked with District Disaster Management Plan.
Given in section 10.8 of chapter-10. Various environmental pollution control measures will be taken by NRL. All environmental parameters i.e. air, water, soil, noise and emission will monitored by third party agency. Environmental monitoring programme has been provided in Chapter-6. Provided in Chapter-7.
8. Occupational health i) Plan and fund allocation to ensure the
occupational health & safety of all contract and casual workers
ii) Details of exposure specific health status evaluation of worker. If the workers’ health is being evaluated by pre designed format, chest x rays, Audiometry, Spirometry, Vision testing (Far & Near vision, color vision and any other ocular defect) ECG, during pre-placement and periodical examinations give the details of the same.
iii) Details regarding last month analyzed data of above mentioned parameters as per age, sex, duration of exposure and department wise.
iv) Details of existing Occupational & Safety Hazards. What are the exposure levels of hazards and whether they are within Permissible Exposure level (PEL). If these are not within PEL, what measures the company has adopted to keep them within PEL so that health of the workers can be preserved,
v) Annual report of health status of workers with special reference to Occupational Health and Safety.
Periodic compulsory medical examination for all the plant employees as per OSHA requirement and specific medical examination.
9. Corporate Environment Policy
i) Does the company have a well laid down
A well laid Safety, Health, Environment
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Environment Policy approved by its Board of Directors? If so, it may be detailed in the EIA report.
ii) Does the Environment Policy prescribe for standard operating process / procedures to bring into focus any infringement / deviation / violation of the environmental or forest norms / conditions? If so, it may be detailed in the EIA.
iii) What is the hierarchical system or Administrative order of the company to deal with the environmental issues and for ensuring compliance with the environmental clearance conditions? Details of this system may be given.
iv) Does the company have system of reporting of non-compliances / violations of environmental norms to the Board of Directors of the company and / or shareholders or stakeholders at large? This reporting mechanism shall be detailed in the EIA report.
and Quality policy of NRL is already in place. The same is given in Chapter 10.
10. Details regarding infrastructure facilities such as sanitation, fuel, restroom etc. to be provided to the labor force during construction as well as to the casual workers including truck drivers during operation phase.
Infrastructure facilities to labourers will be provided by contractors.
11. Enterprise Social Commitment (ESC) i) Adequate funds (at least 2.5 % of the
project cost) shall be earmarked towards the Enterprise Social Commitment based on Public Hearing issues and item-wise details along with time bound action plan shall be included. Socio-economic development activities need to be elaborated upon.
Already various CSR activities are carried out by M/s NRL around Refinery. The same will be continued further. Budget will be allocated as per latest CER circular of MoEFCC. The same has been provided in chapter-10 & CSR activities of last 3 years given in Annexure-X.
12. Any litigation pending against the project and/or any direction/order passed by any Court of Law against the project, if so, details thereof shall also be included. Has the unit received any notice under the Section 5 of Environment (Protection) Act, 1986 or relevant Sections of Air and Water Acts? If so, details thereof and compliance/ATR to the notice(s) and present status of the case.
There is no litigation pending against the project proponent.
13. A tabular chart with index for point wise compliance of above TORs.
Noted.
Specific TOR
1. Complete process flow diagram describing each unit, its capacity along-with material and energy balance.
Provided in figure 2.1 of Chapter-2.
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2. Details of intermediate product, their storages and final products to be manufactured.
Provided in Section 2.2.4 in Chapter-2.
3. Sulphur balance giving input from crude, refinery fuel (if used) and any other outside fuel and output in various products and emissions.
Provided in Section 2.2.5 in Chapter-2.
4. A detail of proposed source-specific pollution controls schemes and equipment to meet the national standards for petroleum refinery.
Provided in Chapter-4, 6 and 10. The proposed project will meet all the refinery specific standards and detailed pollution control measures will be formulated during detailed engg. stage.
5. Details of emissions from all the stacks including volumetric flow rate.
Provided in table 4.6 of Chapter-2.
6. Details on availability of raw materials (crude oil, natural gas, chemicals, etc.), its source and storage at the plant.
Raw materials: Provided in Section 2.2.2 in Chapter-2.
7. Details on mode of transportation of crude and products.
Provided in Section 2.2.2 in Chapter-2.
8. Details of storage capacity of crude and products.
Provided in Section 2.2.4 in Chapter-2.
9. Ambient air quality data should include hydrocarbon ( methane and non-methane), VOC, Ni & V etc.
AAQ provided in Section 3.1 of chapter-3.
10. Efforts to minimize water consumption, effluent discharge and to maintain quality of receiving water body.
ETP treated effluent shall be treated in a RO based recycle plant. The recycled effluent shall used as DM water and Cooling tower make up.
11. Details of effluent at men plant, inlet and treated water quality with specific efficiency of each treatment unit in reduction in respect of all con corned/ regulated environmental parameters. Also, include treatment details such as primary (physico-chemical), secondary (biological) and tertiary (activated carbon filters) treatment systems.
Details of ETP has been provided in section 2.2.8 in chapter-2.
12. Storm water management plan. Proper storm water management shall be provided in NRL and shall be developed during detailed engg. Stage.
13. Estimation SO2 and NOx emissions load.
Total SO2 emission limit for Post NREP is 586 kg/hr (14.06 TPD) and details are given in chapter-2 & 4.
14. Details on flaring system. Provided in Section 2.2.3 in Chapter-2.
15. Details of VOC recovery devices in the storage tanks.
Provided in Section 2.2.6 in Chapter-2.
16. Arrangement for spill management. Not Applicable
17. Oily sludge management plan. Provided in Section 2.2.8 in Chapter-2.
19. Risk Assessment & Disaster Management Plan i. Identification of hazards ii. Consequence Analysis iii. Risk assessment should also include leakages and location near to refinery & proposed measures for risk reduction. iv. Arrangement for fire protection and control.
Provided in Rapid Risk Analysis report (Annexure-XI).
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TABLE OF CONTENTS SL. NO. DESCRIPTION PAGE No.
CHAPTER – 1 INTRODUCTION
1.0 INTRODUCTION 2
1.1 PURPOSE OF THE PROJECT 2
1.2 IDENTIFICATION OF PROJECT AND PROJECT PROPONENT 2
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4.9 SUMMARY OF IMPACTS 147
CHAPTER – 5 ANALYSIS OF ALTERNATIVE SITES
5.1 EXISTING REFINERY 149
5.2 SITE SELECTION 149
CHAPTER – 6 ENVIRONMENTAL MONITORING PROGRAM
6.0 INTRODUCTION 151
6.1 ENVIRONMENTAL MONITORING AND REPORTING PROCEDURE 151
6.2 OBJECTIVES OF MONITORING 152
6.3 CONSTRUCTION PHASE 152
6.4 OPERATION PHASE 155
CHAPTER – 7 ADDITIONAL STUDIES
7.0 ADDITIONAL STUDIES 161
7.1 OFFSITE EMERGENCY PREPAREDNESS PLAN 161
7.2 ONSITE EMERGENCY PREPAREDNESS PLAN 169
7.3 OCCUPATIONAL HEALTH OF THE CONTRACT AND SUB-CONTRACT WORKERS
176
7.4 RAPID RISK ASSESSMENT STUDY 177
7.5 PUBLIC HEARING 187
7.6 PROPOSED DEVELOPMENTAL ACTIVITIES/ANCILLARY FACILITIES FOR NUMALIGARH REFINERY EXPANSION PROJECT (NREP) IN NO DEVELOPMENT ZONE (NDZ)
189
7.7 COURT CASES/LITIGATIONS WITH NRL 196
CHAPTER – 8 PROJECT BENEFITS
8.0 INTRODUCTION 199
8.1 METHODOLOGY OF IDENTIFYING SCHEMES 199 8.2 CONTRIBUTION TO NATIONAL ENERGY SECURITY 199 8.3 SOCIO-ECONOMIC DEVELOPMENT 199 CHAPTER – 9 ENVIRONMENT COST BENEFIT ANALYSIS
12.5 CORE VALUES OF EIL 274 12.6 QUALITY POLICY OF EIL 274 12.7 HSE POLICY OF EIL 274 12.8 ENVIRONMENTAL POLICY OF EIL 274 12.9 RISK MANAGEMENT POLICY OF EIL 275
12.10 DETAILS OF ACCREDITATION 275
LIST OF TABLES
S. NO.
TABLE NO.
TABLE TITLE PAGE NO.
1. 1.1 DETAILS OF ENVIRONMENTAL SETTING 4
2. 2.1 EXISTING UNIT CAPACITIES OF NUMALIGARH REFINERY LIMITED
12
3. 2.2 DESIGN PRODUCT SLATE OF EXISTING REFINERY 13
4. 2.3 PROPOSED UNIT CAPACITIES IN THE ADDITIONAL 6.0 MMTPA 15
5. 2.4 LIST OF RAW MATERIALS USED IN REFINERY OPERATION 33
6. 2.5 PRODUCT SLATE OF NRL (EXISTING & PROPOSED) 33
7. 2.6 PRODUCT SPECIFICATION OF NRL 34
8. 2.7 PROPOSED UTILITY SYSTEMS OF ADDITIONAL TRAIN OF NRL 37
9. 2.8 PROPOSED OFF-SITE FACILITIES IN NRL EXPANSION 40
10. 2.9 SULPHUR BALANCE FOR 6.0 MMTPA 41
11. 2.10 CONSUMPTION AND CONFIGURATION OF RAW WATER SYSTEM
44
12. 2.11 QUALITY OF LIQUID EFFLUENTS COMING TO THE ETP 48
13. 2.12 ESTIMATED FLOW RATES OF VARIOUS EFFLUENTS COMING INTO THE ETP BATTERY LIMITS
51
14. 2.13 QUALITY OF OILY EFFLUENT 51
15. 2.14 QUALITY OF SPENT CAUSTIC STREAM 52
16. 2.15 QUALITY OF THE SANITARY EFFLUENT 52
17. 2.16 QUALITY OF TREATED EFFLUENT STIPULATED BY MOEFCC 53
18. 2.17 NOISE LEVEL MEASUREMENT FOR CATEGORY A 54
20. 2.19 FACILITIES TO BE DISMANTLED/RELOCATED FOR PROPOSED FACILITIES
57
21. 3.1 SUMMARISED PRIMARY METEOROLOGICAL DATA 61
22. 3.2 MONTHLY MEAN VALUES OF METEOROLOGICAL DATA 62
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TABLE TITLE PAGE NO.
23. 3.3 LIST OF MONITORING LOCATIONS IN STUDY AREA 64
24. 3.4 AMBIENT AIR QUALITY – METHODOLOGY 65
25. 3.5 NATIONAL AMBIENT AIR QUALITY STANDARDS 65
26. 3.6 AMBIENT AIR QUALITY MONITORING RESULTS (PM 10) 66
27. 3.7 AMBIENT AIR QUALITY MONITORING RESULTS (PM 2.5) 66
28. 3.8 AMBIENT AIR QUALITY MONITORING RESULTS (SO2) 67
29. 3.9 AMBIENT AIR QUALITY MONITORING RESULTS (NO2) 68
30. 3.10 AMBIENT AIR QUALITY MONITORING RESULTS (CO) 69
31. 3.11 AMBIENT AIR QUALITY MONITORING RESULTS (NH3) 70
32. 3.12 AMBIENT AIR QUALITY MONITORING RESULTS (O3) 71
33. 3.13 LIST OF MONITORING LOCATIONS IN STUDY AREA 73
34. 3.14 NOISE LIMITS 74
35. 3.15 24 HOURLY NOISE DATA (DAY AND NIGHT TIMINGS IN Leq db (A))
74
36. 3.16 LIST OF MONITORING LOCATIONS IN STUDY AREA 75
37. 3.17 TRAFFIC DATA (TWICE IN A MONTH DURING 3 MONTHS STUDY PERIOD)
75
38. 3.18 WATER SAMPLING LOCATIONS IN STUDY AREA 76
39. 3.19 METHODS OF ANALYSIS OF WATER SAMPLES 77
40. 3.20 LIST OF MONITORING LOCATIONS IN STUDY AREA 79
41. 3.21 WATER QUALITY CRITERIA FOR SURFACE WATERS 80
42. 3.22 WATER QUALITY - PHYSICO-CHEMICAL ANALYSIS OF GROUND WATER
81
43. 3.23 WATER QUALITY - PHYSICO-CHEMICAL ANALYSIS OF SURFACE WATER
84
44. 3.24 LIST OF MONITORING LOCATIONS IN STUDY AREA 88
45. 3.25 PHYSICOCHEMICAL PARAMETERS OF THE SOIL 89
46. 3.26 STANDARDS: CONCENTRATION OF SOIL 90
47. 3.27 LIST OF PLANT SPECIES 91
48. 3.28 LIST OF BIRDS IN AND AROUND THE STUDY AREA 101
49. 3.29 FAMILY WISE DISTRIBUTION OF BIRDS 104
50. 3.30 DEMOGRAPHIC CHARACTERISTICS OF THE DISTRICTS 106
51. 3.31 POPULATION COMPOSITION 107
52. 3.32 OCCUPATIONAL STRUCTURE 110
53. 3.33 LITERACY LEVELS 113
54. 4.1 MATRIX FOR EVALUATING SPATIAL CRITERIA 120
55. 4.2 MATRIX FOR EVALUATING TEMPORAL CRITERIA 121
56. 4.3 MATRIX FOR EVALUATING SIGNIFICANCE 121
57. 4.4 IMPACT IDENTIFICATION MATRIX 123
58. 4.5 IMPACT OF AIR EMISSIONS (CONSTRUCTION PHASE) 124
59. 4.6 STACK WISE NOX AND SO2 EMISSION OF PROPOSED UNITS IN NRL
127
60. 4.7 PREDICTED VALUES OF GLC FOR SO2 128
61. 4.8 PREDICTED VALUES OF GLC FOR NO2 130
62. 4.9 IMPACT OF AIR EMISSIONS (OPERATION PHASE) 133
63. 4.10 IMPACT OF WATER CONSUMPTION (CONSTRUCTION PHASE) 134
64. 4.11 IMPACT OF EFFLUENT GENERATION (CONSTRUCTION PHASE)
134
65. 4.12 IMPACT OF WATER CONSUMPTION (OPERATION PHASE) 135
66. 4.13 IMPACT OF EFFLUENT GENERATION (OPERATION PHASE) 136
67. 4.14 SOUND PRESSURE (NOISE) LEVELS OF CONSTRUCTION 137
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TABLE TITLE PAGE NO.
MACHINERY
68. 4.15 IMPACT ON AMBIANT NOISE (CONSTRUCTION PHASE) 137
69. 4.16 IMPACT ON AMBIENT NOISE (OPERATION PHASE) 138
70. 4.17 IMPACT ON LAND USE & TOPOGRAPHY (CONSTRUCTION PHASE)
139
71. 4.18 IMPACT ON SOIL QUALITY (CONSTRUCTION PHASE) 139
72. 4.19 IMPACT ON SOIL QUALITY (OPERATION PHASE) 140
73. 4.20 IMPACT ON BIOLOGICAL ENVIRONMENT (CONSTRUCTION PHASE)
141
74. 4.21 IMPACT ON BIOLOGICAL ENVIRONMENT (OPERATION PHASE)
141
75. 4.22 IMPACT ON SOCIO-ECONOMIC ENVIRONMENT (CONSTRUCTION PHASE)
143
76. 4.23 IMPACT ON SOCIO-ECONOMIC ENVIRONMENT (OPERATION PHASE)
145
77. 4.24 SUMMARY OF IMPACT EVALUATION IN TERMS OF SIGNIFICANCE VALUE
146
78. 6.1 ENVIRONMENTAL MONITORING PROGRAMME – CONSTRUCTION PHASE (4 YEARS)
152
79. 6.2 PROPOSED ENVIRONMENTAL MONITORING DURING PROJECT CONSTRUCTION STAGE
153
80. 6.3 NOISE LEVEL TO BE MONITORED 155
81. 6.4 AMBIENT AIR TO BE MONITORED 156
82. 6.5 PROPOSED ENVIRONMENTAL MONITORING DURING OPERATIONAL PHASE
157
83. 10.1 INDIAN ENVIRONMENTAL LEGISLATION/RULES 193
84. 10.2 ELEMENTS OF HSE MANAGEMENT SYSTEM DURING EPC PHASE
199
85. 10.3 SUMMARY OF IMPACTS AND ENVIRONMENTAL MANAGEMENT PLAN (CONSTRUCTION PHASE)
202
86. 10.4 LIST OF TREE SPECIES SUGGESTED FOR GREEN BELT DEVELOPMENT
206
87. 10.5 BUDGET OF ENVIRONMENTAL MANAGEMENT PLAN (CAPITAL COST)
216
88. 10.6 BUDGET OF ENVIRONMENTAL MANAGEMENT PLAN (RECURRING COST PER ANNUM)
217
89. 11.1 PRODUCT SLATE IN THE EXISTING AS WELL AS PROPOSED REFINERY
225
90. 11.2 SUMMARY OF AIR MONITORING DATA ANALYSIS 227
91. 11.3 SUMMARY OF PHYSICOCHEMICAL DATA COLLECTED FOR GROUND WATER ENVIRONMENT
228
92. 11.4 SUMMARY OF PHYSICOCHEMICAL DATA COLLECTED FOR SURFACE WATER ENVIRONMENT
230
93. 11.5 DESCRIPTION OF NOISE MONITORING LOCATIONS AND MEASURED VALUES
232
94. 11.6 MEASURED VALUES OF SOIL PARAMETERS 233
95. 11.7 PROPOSED ENVIRONMENTAL MONITORING PROGRAM DURING CONSTRUCTION PHASE
236
96. 11.8 PROPOSED ENVIRONMENTAL MONITORING PROGRAM DURING OPERATIONAL PHASE
238
97. 11.9 SUMMARY OF IMPACTS AND ENVIRONMENTAL MANAGEMENT PLAN FOR POST EXPANSION PHASE OF NRL
240
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REFINERY DURING CONSTRUCTION PHASE
98. 11.10 SUMMARY OF IMPACTS AND ENVIRONMENTAL MANAGEMENT PLAN FOR POST EXPANSION PHASE OF NRL REFINERY DURING OPERATION PHASE
241
LIST OF FIGURES
S. NO.
FIGURE NO.
FIGURE TITLE PAGE NO.
1. 1.1 LOCATION MAP OF NRL 6
2. 1.2 LOCATION MAP AROUND NRL WITHIN 10 KM AREA 7
3. 2.1 BLOCK FLOW DIAGRAM OF EXPANSION REFINERY 14
4. 2.2 OVERALL WATER BALANCE IN POST-NREP SCENARIO 45
5. 3.1 LAND USE LAND COVER MAP WITHIN 10 KM RADIUS OF NRL
60
6. 3.2 PRIMARY DATA - WIND ROSE 61
7. 3.3 MONTH WISE TEMPERATURE (OC) 62
8. 3.4 MONTH WISE HUMIDITY (%) 63
9. 3.5 MAP SHOWING AIR MONITORING LOCATIONS IN STUDY AREA OF 10 KM RADIUS
64
10. 3.6 GRAPHICAL REPRESENTATION OF PM10 & PM2.5 67
11. 3.7 GRAPHICAL REPRESENTATION OF SO2 & NO2 68
12. 3.8 GRAPHICAL REPRESENTATION OF CO 69
13. 3.9 GRAPHICAL REPRESENTATION OF AMMONIA 70
14. 3.10 GRAPHICAL REPRESENTATION OF OZONE 71
15. 3.11 MAP SHOWING NOISE MONITORING LOCATIONS IN STUDY AREA OF 10 KM RADIUS
72
16. 3.12 MAP SHOWING TRAFFIC LOCATIONS 75
17. 3.13 MAP SHOWING GROUND AND SUB-SURFACE WATER SAMPLING LOCATIONS
79
18. 3.14 MAP SHOWING SOIL SAMPLING LOCATIONS IN STUDY AREA OF 10 KM RADIUS
88
19. 3.15 AGRICULTURAL FIELD 99
20. 3.16 MOIST DECIDUOUS FOREST 100
21. 3.17 PINEAPPLE CULTIVATION IN SLOPE AREAS 100
22. 3.18 ORANGE CULTIVATION IN SLOPE AREAS OF HILLS 100
23. 3.19 POPULATIONS OF GOLAGHAT & SIVASAGAR DISTRICTS 106
24. 3.20 POPULATION COMPOSITION 109
25. 3.21 OCCUPATIONAL STATUS 112
26. 3.22 LITERACY LEVELS 115
27. 4.1 PREDICTED GLC FOR 24 HOURS MAXIMUM CONCENTRATION VALUES OF SO2 DUE TO EMISSION FROM THE PROPOSED PROJECT
129
28. 4.2 PREDICTED GLC FOR 24 HOURS MAXIMUM CONCENTRATION VALUES OF NOX DUE TO THE PROPOSED PROJECT.
131
29. 6.1 HSE ORGANOGRAM OF NRL 151
30. 7.1 ORGANOGRAM FOR ONSITE EMERGENCY PREPAREDNESS PLAN OF NRL
163
31. 7.2 ORGANOGRAM FOR SUPPORT/MEDICAL SERVICES 165
32. 7.3 ORGANOGRAM FOR ADVISORY & CHIEF EMERGENCY 173
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FIGURE TITLE PAGE NO.
COORDINATOR
33. 10.1 HEALTH, SAFETY AND ENVIRONMENT (HSE) POLICY OF NRL
200
34. 12.1 EIL ACCREDITATION CERTIFICATE BY NABET 161
35. 12.2 VALIDITY EXTENSION LETTER FOR EIL ACCREDITATION BY NABET
162
LIST OF ANNEXURES Annexure
No. Annexure Title
I. PREVIOUS ENVIRONMENTAL CLEARANCE’S FOR M/S NUMALIGARH REFINERY LIMITED
II. EC COMPLIANCE STATUS REPORT
III. CONSENT TO OPERATE (CTO)
IV. RO, MoEFCC LETTER
V. APPROVED TOR
VI. WATER ALLOCATION LETTER FROM DHANSIRI RIVER BY IRRIGATION DEPT., ASSAM
VII. OVERALL PLOT PLAN OF REFINERY
VIII. LAND USE AND LAND COVER THEMATIC MAPS
IX. ENVIRONMENTAL CONSERVATION MEASURES AT NUMALIGARH REFINERY LTD.
X. DETAILS OF CSR EXPENDITURES (LAST 3 YEARS)
XI. RAPID RISK ASSESSMENT REPORT
XII. BRIEF NOTE OF OILY SLUDGE WASTE MANAGEMENT OF NUMALIGARH REFINERY
XIII. DETAILED WRITE-UP ON EXISTING ETP
XIV. EMERGENCY RESPONSE AND DISASTER MANAGEMENT PLAN (ERDMP) – OFFSITE & ONSITE
XV. MINUTES OF PUBLIC HEARING
XVI. DETAILS OF NON DEVELOPMENT ZONE (NDZ) ALONG WITH ALL APPENDIXES
XVII. COURT CASES/LITIGATIONS WITH NRL
XVIII. SITE PHOTOGRAPHS OF PROPOSED ADDITIONAL LAND PLOTS
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LIST OF ABBREVIATIONS
ABBREVIATIONS
AAQ Ambient air quality
APHA American Public Health Association
ATF Aviation Turbine Fuel
AWS Automated Weather Station
BDL Below Detection Level
BDL Below Detectable Limit
BDT Bina Dispatch Terminal
BIS Bureau of Indian Standards
BOD Biological Oxygen Demand
NRL Numaligarh Refineries Limited
BPCL Bharat Petroleum Corporation Limited
NREP Numaligarh Refinery Expansion Project
CBD Close – Blow down
CCR Continuous Catalytic Reformer
CIC Chief Incident Controller
CMD Chairman and Managing Director
CO Carbon Monoxide
COD Chemical Oxygen Demand
COT Crude Oil Storage Terminal
CPCB Central Pollution Control Board
CPP Captive Power Plant
CRW Contaminated Rain Water
CSR Corporate Social Responsibility
DCU Delayed Coker Unit
DG Diesel Generator
DHDT Diesel Hydrotreating Unit
DHT Diesel Hydrotreater
DO Dissolved Oxygen
EC Environment Clearance
EIA Environmental Impact Assessment
EIL Engineers India Limited
EMC Environmental Monitoring Cell
EMP Environmental Management Plan
EMP Environmental Monitoring Programme
ENT Ear, Nose and Throat
EPC Engineering, Procurement and Construction
ERDMP Emergency Recovery and Disaster Management Plan
ETP Effluent Treatment Plant
FCC False Colour Composite
FCHCU Full conversion Hydrocracker unit
GLC Ground Level Concentration
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NUMALIGARH REFINERY LIMITED, NUMALIGARH, ASSAM
ABBREVIATIONS
GoI Government of India
GW Ground Water
HAZAN Hazard Analysis
HAZOP Hazard and Operability Study
HC Hydro-carbon
HCGO Heavy Coker Gas Oil
HGO Heavy Gas Oil
HGU Hydrogen Generation Unit
HMV Heavy Motor Vehicle
HSD High Speed Diesel
HSE Health, Safety and Environment
IMD Indian Meteorological Data
IRS Institute of Remote Sensing
IS Indian Standards
ISCST Industrial Source Complex Short Term
ISO International Organization for Standardization
ISOM Isomerization Unit
IWPA Indian Wildlife Protection Act
KLD Kiloliter Per Day
LEL Lower Explosive Limit
LGO Light Gas Oil
LISS Linear Imaging Self Scanner
LMV Light Motor Vehicle
LPG Liquefied Petroleum Gas
LVGO Light Vacuum Gas Oil
MBR Membrane Bio Reactor
MGD Million Gallon Daily
MINAS Minimal National Standards
MMTPA Million Metric Tonne Per Annum
MoEFCC Ministry of Environment, Forest and climate change
MS Motor Spirit
NAAQS National Ambient Air Quality Standards
NABET National Accreditation Board for Education and Training
NGO Non-Governmental Organization
NHT Naphtha Hydro-treating Unit
NOX Oxides of Nitrogen
NSU Naphtha Splitter Unit
OCC Oman Oil Company
OSHA Occupational Safety and Health Association
PACE Pratham Arora Centre of Education
PCU Passenger Car Unit
PFR Pre-Feasibility report
PM Particulate Matter
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NUMALIGARH REFINERY LIMITED, NUMALIGARH, ASSAM
ABBREVIATIONS
PMC Project Management Consultant
PPM Parts Per Million
PSA Pressure Swing Adsorption
PCB Pollution Control Board
QCI Quality Council of India
RA Risk Assessment
RCO Reduced Crude Oil
RH Relative Humidity
RO Reverse Osmosis
RSM Refinery Shift Manager
SAR Sodium Adsorption Ratio
SBR Sequential Batch Reactor
SFO Shift Fire Officer
SIA Socioeconomic Impact Assessment
SIA Social Impact Assessment
SIC Site Incident Controller
SOI Survey of India
SOx Sulphur dioxide
SPCB State Pollution Control Board
SRU Sulfur Recovery Unit
SWS Sour Water Stripper
TDS Total Dissolved Solids
TGTU Tail Gas Treating Unit
TOR Terms of Reference
TPD Tons Per Day
TPH Total Petroleum Hydrocarbon
TSDF Treatment, storage and disposal facility
TSS Total Suspended Solids
USEPA US Environmental Protection Agency
VDU Vacuum Distillation Unit
VES Visual Encounter Survey
VOC Volatile Organic Compound
WWTP Waste Water Treatment Plant
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CHAPTER – 1
INTRODUCTION
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1.0 INTRODUCTION
1.1 PURPOSE OF THE PROJECT
Numaligarh Refinery Limited (NRL), a company promoted by Bharat Petroleum Corporation Limited (BPCL), Govt. of Assam and Oil India Limited (OIL) having the shareholding pattern 61.65%, 12.35% and 26.00% respectively, operating a 3 MMTPA grass root oil refinery located at Numaligarh, District Golaghat, Assam, India. The overall refinery configuration at NRL consists of Crude and Vacuum Distillation Unit; Full conversion Hydrocracker unit; Delayed Coker unit; MS block comprising Naphtha Hydro-treating unit, Semi-Regenerative Reformer and Iso-merization unit; and other associated facilities such as Hydrogen Generation Unit (HGU), Sulfur Recovery Unit, Sour Water Stripper (SWS) etc. The refinery is producing motor spirit (MS) and high speed diesel (HSD) primarily conforming to EURO III/IV specifications by processing of indigenous Assam Mix crude extracted from the upper Assam oil fields by OIL.
In view of the projected demand growth of petroleum products in the country and also to retain its profitability and competitiveness in the long run, NRL intends to install a parallel new train for imported sour crude processing capacity of 6.0 MMTPA. The various units coming under 6.0 MMTPA refinery are crude distillation unit (CDU) and vacuum distillation units (VDU), Naphtha Hydro-treater/Naphtha Iso-merisation / Naphtha Continuous Catalytic Regeneration Units (NHT / ISOM / CCR), hydrogen generation unit (HGU), Diesel Hydro-treating unit (DHDT), Petro Fluidized Catalytic Cracker (PFCC, including cracked LPG treating facility),FCC Gasoline Desulfurization Unit and Residue Up-gradation Facility (RUF) comprising of Ebullated bed Resid hydrocracker with integrated VGO Hydro-treater. This 6.0 MMTPA refinery will produce MS and HSD conforming to BS VI specifications by processing of imported sour crude.
As per the Ministry of Environment, Forests and Climate Change (MoEFCC), New Delhi, any new project or modernization or expansion project need to have an Environmental Clearance from MoEFCC. In accordance with this, NRL decided to conduct an Environmental Impact Assessment (EIA) study. M/s NRL has entrusted M/s Engineers India Limited (EIL) to carry out Environmental Impact Assessment (EIA) study for various environmental components of the proposed expansion project. EIL is an accredited consultant for carrying out EIA studies by Quality Council of India in Category A – “Petroleum Refining Industry”; Sector 10 as per NABET Scheme & Category 4 (a) (MoEFCC).
1.2 IDENTIFICATION OF PROJECT AND PROJECT PROPONENT
Numaligarh Refinery Limited (NRL), a company promoted by Bharat Petroleum Corporation Limited (BPCL), Govt. of Assam and Oil India Limited (OIL) has commissioned a 3.0 MMTPA Oil Refinery located at Numaligarh, Assam, India. NRL intends to expand its refining capacity from 3.0 to 9.0 MMTPA by installing a new train of 6.0 MMTPA capacities. This new train will be designed and dedicated to refine imported Arabian sour crude and all the new facilities will be provided to this 6.0 MMTPA refinery. As per the Plant layout prepared during the preparation of Techno-Economic Feasibility Report (TEFR) for NRL expansion, it is observed that no additional land is needed for installation of the new 6.0 MMTPA refinery and can be executed within the plant boundary limits with some demolition works.
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Details of EC’s obtained so far,
S. No.
Project Name MoEF&CC File No. EC issued Date
1. Petroleum Refinery at Numaligarh J-11011/16/78-IA. II May 31,1991 2. BS-III Motor Spirit Project at NRL J-11011/92/2003-IA II (I) February 13, 2004 3. Coke-Calcination Unit (0.1 MTPA) J-11011/203/2003-IA II (I) March 22, 2004
4. Diesel Quality Up-gradation Project (DQUP) at NRL
J-11011/272/2008-IA- II (I) November 10, 2008
5.
Paraffin Wax Type (43,000 TPA) & Semi-Microcrystalline Wax Type A (4,500 TPA) within the existing premises of 3 MMTPA Petroleum refinery at NRL
J-11011/113/2009-IA- II (I) September 5, 2012
6. Naptha Splitter Unit (160,000 TPA) in the existing Refinery at NRL
J-11011/534/2009-IA- II (I) September 12, 2012
7.
Installation of new LPG mounded bullet & up-gradation of existing LPG bottling plant and BS-IV HSD project at NRL
J-11011/150/2015-IA- II (I) December 9, 2016
Above all Environmental Clearance’s for M/S NUMALIGARH REFINERY LIMITED are
attached as Annexure-I.
EC Compliance Status Report for these projects is enclosed in Annexure-II. Also the
copy of Consent to Operate (CTO) from Pollution Control Board, Assam is attached as
Annexure-III.
Regional Office, MoEFCC, Shillong certified Monitoring letter is attached in Annexure-
IV.
Details of EC obtained for Bamboo based Bio-ethanol Plant as NRL Bio-refinery
Project:
The MoEFCC has examined the proposal for grant of environmental clearance (EC) to
the “Bamboo based Bio-ethanol Plant of Capacity 187 KLPD/49 KTPA” by M/s
Numaligarh Refinery Limited in an area of 10.5 ha. located at village Owguri Chapori
Gaon,Mouza Morong,Tehsil& District, Golaghat (Assam).The proposal was considered
in 28th EAC meeting held during 18-20 Sept., 2017.
And MoEFCC has been issued an Environmental Clearance to M/s Numaligarh Refinery
Limited on 6th November, 2017. The Copy of EC is attached with Annexure-I.
1.2.1 PROJECT PROPONENT 1.2.1.1 Address of the Project Proponent
The address for the correspondence is: Mr. Alok Nayan Nath, Chief Manager (Technical Services), Numaligarh Refinery Limited, NRL Complex, Numaligarh, Dist: Golaghat, Assam, India.
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1.2.1.2 Particulars of EIA Consultant
The EIA consultant is Engineers India Limited (EIL). The complete address for correspondence is given below: Head, Environment Division, Engineers India Limited, Research & Development Complex, Sector-16, On NH-8, Gurgaon – 122001, Haryana Email: [email protected]. Tel: 0124-3802035; Website: www.engineersindia.com
1.3 BRIEF DESCRIPTION OF THE EXPANSION PROJECT
1.3.1 Nature and size of the project
NRL intends to increase crude oil processing capacity from 3.0 MMTPA to 9.0 MMTPA through installing a parallel refinery of 6.0 MMTPA. The parallel refinery is having all the new facilities dedicated to the 6.0 MMTPA refinery and all the necessary steps will be taken improve the plant environment in view of air pollutants emitted into the atmosphere.
1.3.2 Location of the project
Numaligarh Refinery is spread over in 333.5 Ha. located at Numaligarh, Golaghat District of Assam in the NE direction. Of all the total area, the new 6.0 MMTPA train will occupy 88.4 Ha. The details of environmental setting is given in Table 1.1 and the location & study area map of NRL surrounding 10 km radius are given in Figure 1.1 & Figure 1.2, respectively. Greenbelt area is 56 Ha.
Table 1.1 Details of Environmental Setting
Sl. No. Particulars Details
1 Plant location Pankagrant Village, Golaghat district, Assam
2 Plant site co-ordinates Longitude 93⁰ 43’ 30” E &
Latitude 26⁰ 37’ 30” N
3 Climatic condition at site (Average)
a) Temperature
Maximum 18 – 37 ⁰C (Summer)
Minimum 07 – 24 ⁰C (Winter)
b) Relative humidity 34 - 90
c) Average annual rainfall 1898 mm
d) Predominant wind direction NE to SW
4 Climatic condition at site
a) Temperature Max: 37⁰C, Min: 7⁰C
b) Relative humidity Max: 99%, Min: 26%
5 Plant site elevation above MSL 90 m above MSL
6 Plant site topography Site with different terrain levels
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Sl. No. Particulars Details
8 Nearest Highway NH 39
9 Nearest railway station Furkating Jn, 35 km from NRL
10 Nearest airport The nearest airport is Jorhat, 70 km away from NRL site
11 Nearest major water bodies River Dhansiri
12 Nearest city/ town Golaghat and Jorhat
13 Archaeological important places Deopahar – It is a protected Archaeological Park and site - museum under the Directorate of Archaeology, Government of Assam, India. (within 10-KM radius) Deopahar notified as Reserve Forest on 19.01.19
14 Protected areas as per Wildlife Protection Act 1972
None in 10 Km radius as per Wildlife Protection Act 1972
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Figure 1.2: Location Map around NRL within 10 km Area
1.3.3 IMPORTANCE AND BENEFITS OF THE PROJECT
The refinery is situated in a petroleum product demand deficit zone; majority of the incremental products will be consumed within Central India thus supporting economic development of the region. This project will also help NRL to bring in additional investment to the region. The refinery project will maximize the production of Eco-Friendly products, i.e., BS VI MS/Diesel and shall prepare the refinery to meet BS VI fuel demands in future.
1.4 COST OF PROJECT AND TIME OF COMPLETION
The completion period (Mechanical completion) of the proposed project is 48 months from the zero date (receipt of EC). The estimated capital cost for the Expansion project is Rs. 22,594.00 Crores.
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1.5 SCOPE OF THE STUDY
The study covers core area of 10 km radius circle with the Proposed Capacity Expansion Project site boundary. The scope of study broadly includes:
To conduct literature review and to collect data relevant to the study area;
To establish the baseline environmental status of the study area by using one season baseline environmental data;
To identify various existing pollution loads due to various activities in the ambient levels;
To predict incremental levels of pollutants in the study area due to the proposed NRL expansion activities;
To evaluate the predicted impacts on the various environmental attributes in the study area by using scientifically developed and widely accepted environmental impact assessment methodologies;
To prepare a Environmental Monitoring Plan (EMP);
To prepare an Environment Management Plan (EMP) outlining the measures for improving the environmental quality; and
To identify critical environmental attributes required to be monitored.
The literature review includes identification of relevant articles from various publications, collection of data from various government agencies and other sources.
1.6 ORGANIZATION OF THE REPORT The proposed refinery expansion project would naturally have implications on the neighborhood with reference to socio-economic aspects of society, environmental attributes such as land, water, air, aesthetics, noise, flora and fauna. In assessing the environmental impact, collection, collation and interpretation of baseline data is of prime importance. Environmental Impact analysis and assessment which is required for every industrial project should preferably be carried out at the planning stage itself.
The matrix method which gives cause-effect relationship between an activity and environmental parameter has been adopted in preparing this report. The basic objective of identification of impacts is to aid the proponents of the project to rationalize the procedure for an effective environment management plan, leading to an improvement in environmental quality as a result of the location of the proposed project. This has been attempted by the following procedures:
Collection, collation and analysis of baseline data for various environmental attributes;
Identification of impacts;
Impact assessment through modeling;
Evaluation of impacts leading to preparation of environmental management plan;
Outlining post project monitoring methodology. 1.6.1 CONTENTS OF THE REPORT
The report has been divided into ten chapters and presented as follows:
Chapter-1.0: Introduction
This chapter provides background information of the existing and the expansion project, brief description and objectives of the project, description of the area, scope, methodology and organization of the study.
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Chapter-2.0: Project Description This chapter presents the background information on the existing and post expansion activities, process being adopted, sources of pollution and control thereof.
Chapter-3.0: Description of the Environment This chapter presents the methodology and findings of field studies undertaken to establish the baseline conditions. Chapter-4.0: Anticipated Environment Impacts and mitigation measures This chapter details the inferences drawn from the environmental impact assessment of “The project” during construction and operational phase. It describes the overall impacts of the proposed project and underscores the areas of concern which need mitigation measures. Chapter-5.0: Analysis of Alternative Site This chapter provides Alternative analysis of site & evaluation of the different choices available to achieve a particular project management objective. It is an analytical comparison of different factors like operational cost, risks, effectiveness as well as the shortfalls in an operational capability. Chapter-6.0: Environment Monitoring Program
This chapter provides technical aspects of monitoring the effectiveness of mitigation measures (incl. Measurement methodologies, frequency, location, data analysis, reporting schedules, emergency procedures, detailed budget & procurement schedules)
Chapter-7.0: Additional Studies This chapter covers Public Hearing, risk involved in the proposed facilities, storages and utilities and Occupational Health and Safety. Chapter-8.0: Project Benefits This chapter presents the details of Local area development programmes that are being undertaken in nearby villages at NRL.
Chapter- 9.0: Environmental Cost Benefit Analysis This chapter presents the details of Environmental Cost Benefit analysis; if recommended at the scoping stage. Chapter-10.0: Environment Management Plan (EMP) This chapter provides recommendations for Environment Management Plan (EMP) including mitigation measures for minimizing the negative environmental impacts of the project. Environmental monitoring requirements for effective implementation of mitigate measures during construction as well as during operation of the project along with required institutional arrangements for their implementation. Budgetary cost estimates for mitigation measures are also brought out.
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Chapter-11.0: Summary & Conclusion This will constitute the summary of EIA Report. Chapter-12.0: Disclosure of Consultants This chapter contains the list of various experts engaged in preparing the EIA report along with brief introduction of the consultancy.
1.7 MoEFCC APPROVED TERMS OF REFERENCE (TOR) FOR EIA
The Expert Appraisal Committee (Industry) for appraisal of Industrial Projects-2 considered the NRL proposal for approval of TOR for EIA study for the proposed expansion of NRL. Based on the review of the documents submitted by the NRL, the MoEFCC accorded
Standard Terms of Reference (STOR) vide letter No. J-11011/274/2015-IA II (I) dated: 21st June, 2018 for incorporating the same in the EIA report.
The approved TOR is attached as Annexure-V.
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CHAPTER – 2
PROJECT DESCRIPTION
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2.0 INTRODUCTION
This chapter highlights the features of existing and proposed refinery expansion of Numaligarh Refinery Limited (NRL) plant with respect to refinery configuration, raw material requirement, utilities and services, infrastructural facilities and sources of waste generation, their quantity, treatment and safe disposal of the waste.
2.1 NRL REFINERY – AN OVERVIEW
Numaligarh Refinery Limited (NRL), a subsidiary of Bharat Petroleum Corporation Limited is a public sector undertaking under the Ministry of Petroleum and Natural Gas. The refinery located at Golaghat District in Assam was commissioned in the year 2000 with a crude processing capacity of 3 million tonnes per annum (MMTPA) to process indigenous crude of Assam. The refinery primarily produces MS & HSD conforming to BS-IV/VI specification. NRL intends to install a parallel new refinery of crude processing capacity of 6 MMTPA to expand its capacity from present 3 MMTPA to 9 MMTPA. The project is integrated with a new crude oil pipeline from Paradip (Odisha) to Numaligarh (Assam) and a product pipeline from Numaligarh to Siliguri where NRL has its own Marketing Terminal for distribution of product. The crude oil for the new refinery train will be high sulphur crude. The project has been named as Numaligarh Refinery Expansion Project (NREP). The configuration of new train is selected to produce petrochemical feedstock in future. MS & HSD produced from the new train shall meet the BS-VI specification. The list of existing units along with current capacity & respective licensor is as per Table 2.1 below:
Table 2.1: Existing unit capacities of Numaligarh Refinery Limited
Unit Design Capacity
(MMTPA)
CDU/VDU 3.0
NHT/ NSU 0.271/0.16
CRU 0.168
ISOM 0.0555
HCU 1.45
DCU 0.306
CCU 0.115
HGU 0.0486
SRU 19.3 TPD
SWS 20.3 m3/hr
ARU 23.2 TPH Rich Amine
FGSU 6.514 TPH
New NSU 160 KTPA
Wax Plant 0.05
Product Slate of the Existing Refinery The product slate of the refinery consists of Regular Gasoline meeting Euro-III and Euro-IV specifications, ATF, kerosene, and diesel fuels meeting Euro-III and Euro-IV specifications. The Delayed Coker Unit produces petroleum coke, a solid by-product that is sold as anode grade coke. Sulphur is also a product from the Oxygen Enrichment process based Sulphur Recovery Unit. The existing product slate from the refinery is depicted in Table 2.2 below.
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Table 2.2: Design Product Slate of Existing Refinery
The present refinery is designed to refine crude oil of 3.0 MMTPA. NRL intends to install an additional crude oil refining capacity of 6.0 MMTPA in their battery limits. The following processing options have been considered for the design Case:
Primary processing Option:
- 6.0 MMTPA of crude to CDU/VDU
Light ends Processing options:
- Naphtha Hydro-treater/Naphtha Iso-merisation/ Naphtha Continuous Catalytic Regeneration Units (NHT/ISOM/CCR)
Secondary Processing options: - Diesel Hydro-treating unit (DHDT) - Petro Fluidized Catalytic Cracker (PFCC,including cracked LPG treating facility)) - FCC Gasoline Desulfurization Unit
Residue Up-gradation options
- Residue Up-gradation Facility (RUF) comprising of Ebullated bed Resid
hydrocracker with integrated VGO Hydro-treater
Auxiliary Units
- Hydrogen Generation Unit (HGU)
- SRU/SWS/ARU/TGTU
- Straight run LPG treating Unit (Comprising RUF and Straight run LPG treating
Unit)
- Utility Boilers to meet new refinery steam demand.
- Incidental power from new STG’s and balance power required from grid.
- Intermediate & final product storage & handling facilities, as required
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2.2.1 PROCESS DESCRIPTION
A brief process description for each of the process units envisaged as part of the shortlisted refinery configurations are provided in this section. The following units are envisaged in the additional refinery:
1. Crude/Vacuum Distillation Unit with naphtha stabilizer. 2. Naphtha Hydro-treating Unit. 3. Isomerisation Unit. 4. Continuous Catalytic Regeneration Unit. 5. Diesel Hydro-treating Unit. 6. Petro Fluidized Catalytic Cracker. 7. FCC Gasoline Desulphurization Unit. 8. Residue up-gradation unit (With integrated VGO hydro-treater) 9. LPG Treating Unit. 10. Fuel gas treating unit. 11. Hydrogen Generation Unit. 12. Sour Water Stripper. 13. Amine Regeneration Unit. 14. Sulphur Recovery Unit (With Tail Gas Treatment Unit).
The fuels produced from this new train will meet BS-VI grade fuel norms. Figure 2.1 shows the block flow diagram of the proposed refinery of 6.0 MMTPA of crude processing. Table 2.3 gives information about the capacities of various units coming within the additional 6.0 MMTPA refinery.
Figure .2.1: Block Flow Diagram of Expansion Refinery
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Table 2.3: Proposed Unit Capacities in the additional 6.0 MMTPA
Process Units Proposed Capacity
(MMTPA)
Crude Distillation Unit (CDU) / Vacuum Distillation Unit (VDU)
6.0
Naphtha Hydro-treater (NHT) 1.2
Continuous Catalytic Reforminger Unit 0.75
Isomerisation Unit (ISOM) 0.5
Petro Fluidized Catalytic Cracker Unit (PFCC) 1.95
FCC Gasoline Hydro-Treater 0.58
Diesel Hydro-treater 3.55
Hydrogen Plant (KTPA) 95
Resid Up-gradation (Ebulated Bed) 2.0
Sulphur Recovery Unit (SRU) (MT/Day) 2 x 230
Delayed Coker Unit (existing DCU) Revamp from 0.3 to 0.57
As integration with existing units has not been considered, none of the existing units required revamp except coker unit. Existing Coker unit shall need to be revamped from 0.3 to 0.5 MMTPA with feed integration with RUF bottoms of new refinery.
2.2.1.1 Crude/Vacuum Distillation Unit with Naphtha Stabilizer
Crude Charge and Preheat Train-I Crude from offsite storage is received at CDU/VDU plant battery limit. The crude is subsequently heated in preheat exchangers by hot streams of CDU/VDU. Crude picks upheat in the preheat exchangers before being routed to Crude de-salter. De-salter A 2-stage electrostatic Crude De-salter is provided for removal of salt and water from the crude to desired level. The principle of desalting operation requires mixing of preheated wash water in a mixing valve with the crude under controlled conditions and to extract impurities. Crude Preheat Train-II and Pre-flash The crude from De-salter outlet is routed to the 2nd train of pre heat exchangers. Crude picks up heat from hot streams of CDU/VDU and routed to Pre-flash drum. The liquid separated in the Pre-flash drum is pumped to crude pre-heat train-III. Crude Preheat Train-III The pre flashed crude is heated in 3rd preheat train exchangers. Crude picks up heat from hot streams of CDU/VDU and finally routed to crude heater. Crude Heater The preheated crude is fed to the crude heater and equally distributed to the heater passes through pass balancer control valve. The total crude flow to the unit signal is sent to the crude throughput controller, which sends signal to the furnace flow controllers.
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Crude Distillation Column Heated and partially vaporised crude enters crude column through feed nozzle. The column has five side draws, namely, Light Naphtha (SN), Heavy Naphtha (HN), Kerosene (Kero), Light Gas Oil (LGO) and Heavy Gas Oil (HGO). Crude Column Overhead Circuit The overhead system consists of a two stage condensing system with wash water circulation. Sour water separated in reflux drum is partly returned as wash water for atmospheric column overhead vapours. All the salt are dissolved in wash water and are purged out of the system through sour water purge stream to sour water stripper unit. Additionally, Filming Amine is also injected in the crude column overhead line in order to protect the overhead line.
Light/Heavy Naphtha Section Naphtha is drawn as side product to side stripper. Stripper is provided with thermo siphon re-boiler to knock off light ends from naphtha. The CDU hot stream is used as heating medium in re-boiler. The bottom product of light/heavy naphtha stripper is pumped to naphtha product cooler. The cooled product ex-product cooler is finally routed to storage. The light hydrocarbon vapours leaving the naphtha stripper is returned to the crude column. Kerosene Section Kerosene product is drawn from crude column. The kero product flows to the kero stripper under stripper level control. Kero stripper is a re-boiled stripper using CDU hot stream as re-boiling medium. The light hydrocarbon vapours leaving the kero stripper are returned to the crude column. Light Gas Oil Section LGO product and LGO CR stream is drawn as a single stream from crude column. One stream as LGO product flows to the LGO Stripper under LGO stripper level control where it is stripped using MP steam under flow control and the stripped vapours are returned back to the Crude Column. Heavy Gas Oil Section HGO product & HGO CR are drawn as a single stream from the Crude Column. One stream as HGO Product flows to the HGO Stripper under stripper level control where it is stripped using MP steam under flow control and stripped vapours are returned back to the Crude Column. Reduced Crude Oil Section Stripped RCO from the column bottom is sent to the Vacuum Heater under level control of atmospheric column bottom cascaded with the pass flow controller of Vacuum Heater. MP steam under flow control is introduced as stripping steam of the Crude column. Crude Column Circulating Refluxes Crude Column is provided with two Circulating Reflux streams for optimum vapour-liquid internal traffic and heat recovery.
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LGO CR LGO CR is drawn along with LGO product and is pumped by LGO CR Pump. The heat available in LGO CR is removed in crude preheat exchangers and re-boiler. HGO CR HGO CR is drawn along with HGO product and is pumped by HGO CR Pump. The heat available in HGO CR is removed in crude preheat exchangers and re-boiler. Product Rundown Section Light/Heavy Naphtha Product Circuit Light/heavy naphtha from light/heavy naphtha stripper bottoms are pumped by Light/Heavy naphtha Product pumps to Naphtha Air cooler followed by naphtha Trim Coolers after heat recovery in preheat train. The cold light naphtha stream is routed to gasoline pool and cooled heavy naphtha product ex-product cooler is finally routed to naphtha/diesel pool. Kero Product Circuit Kero product from Kero Stripper bottom is pumped by Kero Product pump. After heat recovery, hot kero product is routed to DHT Unit. Kero product is further cooled in product coolers to required rundown temperature and routed to storage. LGO Product Circuit LGO Product from LGO Stripper is pumped by LGO product Pump. After heat recovery, hot LGO product is routed to DHT Unit. LGO product is further cooled in product coolers to required rundown temperature and routed to storage. HGO Product Circuit HGO Product from HGO Stripper is pumped by HGO Product Pump. After heat recovery, hot HGO product is routed to DHT Unit. HGO product is further cooled in product coolers to required rundown temperature and routed to storage. RCO Product Circuit Normally, Reduced Crude Oil (Crude Column residue, RCO) from Crude Column is pumped to vacuum unit without any cooling. Naphtha Stabilizer Naphtha Stabiliser Column The unstabilised naphtha consisting of all the fuel gas, LPG and Naphtha components is pumped to Naphtha stabiliser column after preheating in the stabiliser feed/bottom exchanger. The overhead products are partially condensed in the Stabiliser Overhead Condenser. Fuel gas and LPG are withdrawn from the overhead circuit. Fuel gas is routed to Fuel Gas ATU and LPG is routed to LPG Treater. Stabiliser column is a re-boiled column using CDU hot stream as re-boiling medium. Stabilised Naphtha product from Stabiliser Column bottom is pumped in Stabilised Naphtha
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PDT pumps and routed to NHT Unit. Stabilised Naphtha is further cooled in the exchanger to required rundown temperature before routing the same to the storage. Vacuum Distillation Unit Vacuum Heater Hot RCO from Crude column bottom is pumped by RCO pumps to Vacuum heater. Each coil outlet of vacuum heater joins the transfer line and is routed to Vacuum distillation column. The mixed vapour & liquid stream from the heater is introduced to the Flash zone of Vacuum column.
Vacuum Distillation Column Heated & partially vaporised RCO from Vacuum Heater enters the Vacuum Column. An open ended tangential entry device and a large empty space above flash zone ensure optimal vapour liquid separation.
Stripping section The heavy hydrocarbons are stripped on valve trays. Subsequently the residue is quenched by the vacuum residue product (Quench) to prevent after cracking in the bottom compartment of the column. The various side streams taken out from Vacuum Column are Vacuum Diesel, LVGO, HVGO and Slop Distillate. Overhead Circuit: Overhead vapour from vacuum column goes to the vacuum system. The vacuum system is designed with a two stage ejector and a vacuum pump as the third stage. Sour water from Hot well is pumped by Hot well Sour water pumps. Sour water ex-Hot well flows under inter stage level-cascaded flow control for further treatment in sour water stripper unit. Vacuum Diesel Section: Vacuum Diesel is drawn and pumped by Vacuum Diesel Product+CR+IR Pump and is divided into 2 streams, namely, Vacuum Diesel IR, Vacuum Diesel CR+Product. Vacuum Diesel IR is returned back under flow control to the Vacuum Column. The product stream is cooled in the Vacuum Diesel Product + CR Trim Cooler. The vacuum diesel CR stream is reformed to vacuum column, whereas vacuum diesel product is sent to storage. Provision for routing hot vacuum diesel stream to DHT directly is also provided.
Gas Oil Section: Gas oil is collected in collector tray and pumped by Gas oil IR pumps under level control along with LVGO CR through spray nozzle distributor. Light Vacuum Gas Oil Section (LVGO): LVGO from collector tray is pumped by LVGO Product+CR+IR Pump and is divided into 3 streams, namely, LVGO IR, LVGO CR and LVGO product. LVGO IR is returned back underflow control to the Vacuum Column LVGO CR is cooled in crude/LVGO CR Exchanger before returning back to the Vacuum Column along with Gas oil IR.
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Heavy Vacuum Gas Oil section (HVGO):
HVGO from Collector tray is pumped by HVGO Product pumps and HVGO CR+IR Pumps HVGO CR+IR streams are split into two streams namely HVGO CR & HVGO IR. HVGO IR is returned to column under flow control. HVGO product after exchanging heat with crude in crude pre heat exchangers is combined with LVGO and the combined VGO is cooled in tempered water cooler before being routed to storage. HVGO CR after exchanging heat with preheat train is returned back to column.
Wash Section (WS): Slop from bed collector tray flows by gravity to the Slop Drum. Slop from this drum is pumped by Slop Distillate Pump and is divided into 2 streams. Vapours rising from flash zone are condensed by HVGO IR and collected as slop in collector tray. This liquid provides the required washing in this section. Vacuum Residue Section (VR):
(Vacuum Residue + Quench) from Vacuum Column bottom is pumped by VR+Quench Pump to crude preheat train for heat recovery in Crude/VR+Quench exchangers. The VR+Quench stream is then split into two streams and one stream as VR quench is returned back to the Vacuum Column under flow control cascaded with vacuum column bottom stream temperature controller. Product Rundown Section Hot well vacuum slop oil: Hot well vacuum slop oil from Hot well is pumped by Hot well Slop Oil Pumps through a coalescer and routed to distillate hydro-treater unit header. Sour water from coalescer is routed to sour water rundown line. Vacuum diesel Product: Vacuum Diesel from collector tray is drawn and pumped by Vacuum Diesel Product + CR +IR Pump and is divided into 2 streams namely Vacuum Diesel IR, Vacuum Diesel CR +Product. Hot Diesel stream after heat recovery is routed to DHT and cold stream after cooling to required rundown temperature is sent to the storage.
LVGO product: LVGO from collector tray is pumped by LVGO Product+CR+IR Pump and is divided into 3 streams namely LVGO IR, LVGO CR and LVGO product. LVGO is combined with HVGO after heat recovery and the combined stream namely Vacuum Gas oil (VGO) is routed to Hydrocracker. VGO is further cooled in cooler to required rundown temperature before be in grouted to storage. HVGO product: HVGO product from Collector tray is pumped by HVGO Pump. Subsequently HVGO is combined with LVGO after heat recovery and the combined stream namely Vacuum Gas oil (VGO) is routed to Hydrocracker. VGO is further cooled in cooler to required run down temperature before being routed to storage.
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Slop distillate product: Slop from collector tray flows by gravity to the Slop Drum. Slop from this drum is pumped by Slop Distillate Pump and is divided into 2 streams. One stream is returned under flow control back to Vacuum Column as over flash while the second stream as Slop Product is mixed with Vacuum residue.
Vacuum residue product: (Vacuum Residue + Quench) from Vacuum Column bottom is pumped by VR + Quench Pump to crude preheat train for heat recovery in Crude/VR + Quench exchangers. The VR +Quench stream is then split into two streams. One stream as VR quench is returned back to the Vacuum Column and other stream VR product is routed to Delayed Coker Unit after heat recovery. VR product is further cooled to required rundown temperature before routed to storage. Tempered Water System (TW) The cooling of the high pour point products like Vacuum residue & VGO is done by tempered water to prevent exchanger congealing and to reduce exchanger maintenance. Tempered water is pumped from Tempered Water Drum by Tempered Water Pumps to VR/TW cooler and VGO/TW cooler. Steam Generation Section Make-up BFW is preheated by VR + Slop rundown stream in VR + Slop/BFW pre-heater. This make-up BFW then splits into two parts. One of the make-up BFW stream is fed to LP steam drum. The other Make up BFW stream is fed to MP steam drum. Blowdown Blowdown from MP steam drum is flashed in a LP flash drum. The flashed condensates from this LP flash drum and blow down from LP steam drum is sent to Steam Blow down Drum where it is quenched with service water before draining it to storm sewer. Chemical Dosing Facility This system caters to CDU/VDU units. Demulsifier Demulsifier chemical is unloaded into demulsifier drums. The drum is provided with a mixer which can be used for preparation of desired concentration levels of the chemical. Demulsifier injection is done at the inlet of First stage de-salter. Filming Amine Filming amine is unloaded into Filming amine drum. The drum is provided with a mixer, which can be used for preparation of desired concentration levels of the chemical. It is injected in the column overhead circuit to prevent corrosion.
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Neutralising Amine Neutralising Amine chemical is unloaded into Neutralising Amine drum. The drum is provided with a mixer, which can be used for preparation of desired concentration levels of the chemical. It is injected in the column overhead circuit for pH adjustment and to prevent corrosion.
Caustic Solution Caustic solution is required in the unit for caustic make-up to Vent Gas Caustic Scrubber. 10wt% caustic solution is obtained from OSBL, which shall be used for make-up in Vent Gas Caustic scrubber. 5 wt% Caustic solutions might be required in the unit to be injected into crude line downstream of de-salter.
2.2.1.2 Naphtha Hydro Treating Unit (NHT)
Naphtha feed to NHT passes through a surge drum and a charge pump. It is then combined with a H2-rich gas stream from the recycle gas compressor. The combined feed enters the reactor feed/effluent exchanger, where the feed is heated. The heated feed is brought up to the reaction temperature in a feed charge heater. The hot feed down-flows through a fixed bed reactor where the catalyst reacts with the feed to remove sulphur as H2S, in presence of H2. The reactor effluent is cooled first in the reactor feed/effluent exchanger and then in the product air cooler. Wash water is injected into the reactor effluent upstream of the product air cooler so that any salt build up in the condenser may be washed out. Reactor effluent flows out of the condenser at a low temperature to ensure complete recovery of naphtha and enters the separator. The separator is provided with a mesh coalescer to ensure complete separation of vapour, hydrocarbon liquid and sour water. Sour water is sent to SWSU, H2-rich vapor is recycled back to the reactor through recycle gas compressor. A H2-rich makeup stream is fed into the recycle stream through a makeup gas compressor. Liquid hydrocarbon from separator is heated by heat exchange with stripper bottoms in stripper feed/bottom exchanger and enters the stripper near its top. A steam re-boiler provides stripper heat duty. Overhead vapor from the stripper pass onto the stripper trim cooler partly condenses and separates into three stages in the stripper receiver. Net overhead gas from the stripper receiver is passed onto the refinery fuel gas system after amine treatment to remove all H2S. Sour water from the receiver is sent to SWSU. Hydrocarbon liquid from the receiver is sent back to the stripper as total reflux. Hydro-treated sweet naphtha from stripper bottom is cooled in stripper feed/bottom exchanger and then sent to naphtha/gasoline pool.
2.2.1.3 Naphtha Isomerisation Unit Application: The par-isom process is an innovative application using high- performance non chlorided-alumina catalysts for light naphtha isomerisation. The process uses catalyst, which approaches the activity of chloride alumina catalysts without requiring organic chloride injection. The catalyst is re-generable and is sulphur and water tolerant. Description: The fresh C5 /C6 feed is combined with make-up and re-cycle hydrogen which is directed to a charge heater, where the reactants are heated to reaction temperature. The heated combined feed is then sent to the reactor. Either one or two reactors can be used in series, depending on the specific application.
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The reactor effluent is cooled and sent to a product separator where the recycle hydrogen is separated from the other products. Recovered recycle hydrogen is directed to the recycle compressor and back to the reactor section. Liquid product is sent to a stabilizer column where light ends and any dissolved hydrogen are removed. The stabilized isomerate product can be sent directly to gasoline blending.
2.2.1.4 Continuous Catalyst Regeneration Reforming Unit (CCR)
The Catalytic Reforming Unit processes the heavy naphtha stream to make it more suitable for the production of motor gasoline. The nominal design charge capacity of this unit is 0.7 MMTPA of heavy naphtha. The reforming process involves chemically rearranging the hydrocarbon molecules to produce higher-octane materials. [The octane number is a key measure of motor gasoline performance. The Catalytic Reforming Unit can produce reformate of up to 102 research octane number (RON-Clear). Hydrogen gas is produced as a by product of reforming, and is used as feed to the Naphtha Hydro-treater Unit, Diesel Hydro-treating Unit, Hydrocracker Unit and Iso-merization Unit. The heavy naphtha feed stream is mixed with recycle hydrogen, preheated by exchange with reactor effluent, heated to reaction temperature in the charge heater and sent to the first of a series of three to four reactors. Each reactor is preceded by a gas-fired feed heater to maintain a constant inlet temperature profile for the individual reactors (as reforming reactions that take place in the reactors are predominantly endothermic). Effluent from the last reactor is heat exchanged with the combined feed, condensed in the product trim cooler and sent to the separator. The reformed naphtha product (reformate) is separated from the by-product hydrogen. A portion of the hydrogen is compressed and recycled to be mixed with heavy naphtha feed material. The remaining hydrogen is compressed for use in other refinery processing units. The reformate product is fractionated in the debutanizer for separation of light ends, which are sent to the Gas Concentration Plant for recovery. The reformate liquid product is sent to storage, for use in motor gasoline blending. The Catalytic Reforming Unit reactor catalyst is continuously regenerated in the Catalytic Reforming Unit Catalyst Regenerator. The regeneration section of the reformer provides a continual stream of clean coke-free active catalyst that is returned back to the reactors. Continuous circulation of regenerated catalyst helps maintain optimum catalyst performance at high severity conditions for long on-stream periods of reforming operation. Catalyst regeneration takes place in dedicated equipment and uses nitrogen, air, and per chloro ethylene as regenerating agents. The Catalyst Regenerator performs two principal functions - solid catalyst regeneration and circulation. Spent catalyst from the final Catalytic Reforming Unit reactor vessel is conveyed to the Catalyst Regenerator, where it is regenerated in four steps: 1) coke burning with oxygen, 2 oxy chlorination with oxygen and chloride, 3) catalyst drying with air/nitrogen, and 4) reduction of catalyst metals to "reduced" oxidation states. Exiting the Catalyst Regenerator, the regenerated catalyst is conveyed back into the first Catalytic Reforming Unit reactor. Small quantities of hydrochloric acid and chlorine are generated in the Catalyst Regenerator. The vent gas from the Catalyst Regenerator is scrubbed in two stages with caustic solution and water in the Vent Gas Wash Tower for removal of acid gases, in particular hydro chloric acid. From the Wash Tower, the cleaned vent gas is discharged to the atmosphere.
2.2.1.5 Diesel Hydro-treating Unit (DHT)
A blend of straight run and cracked distillate materials are filtered in a feed filter and fed to a surge drum. From this drum, the feed is pumped under flow control and is mixed with makeup/recycle hydrogen streams. The combined feed is then preheated in a reactor
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feed/effluent exchanger and then brought up to the required reaction temperature in a charge heater. The heated feed is first routed to the HDS reactor that operates down flow, and includes three beds in order to limit the temperature increase inside the reactor. Cold quenches are injected at inter bed sections. The HDS reactor effluent is quenched and sent to the HDT reactor that operates in down flow and has two beds. The HDT reactor effluent is used to exchange heat first with the stripper feed in the stripper feed pre-heater and then with the reactor feed in the reactor feed/effluent exchanger. Final cooling is achieved first in reactor effluent air condenser and then in trim condenser. To avoid ammonium salt deposits and the risk of corrosion, wash water is injected at the inlet of reactor effluent air cooler. The wash water is a mixture of recycled water from cold HP separator and stripped water from SWS. Trim cooler effluent is collected in the cold HP separator, which is a V-L-L separator. The sour water is partly recycled back as wash water, the hydrocarbon liquid is sent to the cold MP separator and the hydrocarbon vapor goes to HP amine absorber knock out drum. At the amine absorber, H2S is removed by amine wash. The sweetened gas is recycled back to the recycle gas compressor at the reaction section inlet. A stream of hydrogen-rich gas from battery limits through makeup gas compressor meets the recycle gas stream. The cold MP separator is also a V-L-L separator. Vapor is sent to the stripper overhead line, sour water withdrawn from the boot is routed to SWS and the hydrocarbon liquid is routed to the stripper. The stripper is steam stripped to obtain hydro-treated diesel with correct flash point. The overhead vapors are partly condensed in an air cooler followed by a trim cooler. The stripper reflux drum is a 3-stage separator. Sour water is sent to SWS, vapor is routed to LP amine absorber and liquid hydrocarbon is partly sent back to the stripper as reflux. The stripper bottom is cooled with stripper feed in a feed/bottom exchanger. It is then cooled in air/trim coolers before being routed to the storage. Net liquid from stripper reflux drum is sent to a stabilizer to remove any hydrogen sulfide and to adjust the butane content in order to minimize the RVP. The stabilizer has a steam re-boiler. Vapor from the stabilizer is sent to LP amine absorber. Stabilized naphtha from stabilizer bottom is heat exchanged with stabilizer feed in a feed/bottom exchanger. It is then cooled in air/trim coolers before being routed to the storage.
2.2.1.6 LPG Treating Unit
LPG Amine Treater Sour LPG is routed to LPG Amine Absorber along with 40wt% MDEA solution for bulk H2S removal. Lean amine from Amine Regeneration Unit is routed to LPG Amine Absorption section. Lean Amine is split into two streams. About 20% of amine is mixed with sour LPG in LPG-Lean Amine (static mixer)’ There is approximately 3-5 deg C rise in temperature of mixed stream coming out of the static mixer due to heat of absorption. The mixed stream is thus cooled in LPG amine cooler to 40 Deg.C and then fed to LPG amine absorber. In the static mixer, MDEA reacts with the above impurities to form amino salts, which go along with rich amine from the column bottom. Balance 80% of the Amine is routed to column top. LPG rises from column bottom to top through amine, which forms the dispersed stage and is routed to Amine settler drum. Any carryover of amine from the column settles down in this vessel. From Amine settler drum, treated LPG is routed to Caustic wash section. An Amine sump is also provided where the amine drains from LPG AAU equipment are collected.
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Caustic Wash Section The caustic wash is based on Continuous Film Contactor (CFC) technology. Initially, fresh caustic solution at ambient temperature is charged into the CFC separator through the CFC caustic wash columns. After taking about 50% level in the CFC separators, the caustic solution is circulated within the system by using caustic circulation pumps for specified time to ensure proper wetting of the fibres, which are provided in the caustic wash columns. LPG, pre-washed by amine absorption located in the upstream proceeds through LPG filters to remove solids larger than 300 microns. The LPG stream is then fed to the top of the wash column, where it contacts the circulated NaOH solution. The caustic solution flows downward, adhering to the fibres, until it enters the aqueous stage where it disengages from the fibres. The LPG flows co-currently with the caustic in the spaces between the fibres and disengages upon entering into the hydrocarbon stage in the CFC separator. The CFC separator system would be single stage or two stages depending upon the feed quality. Caustic Regeneration Section In the Regeneration column rich caustic solution is contacted with dry air, which is dispersed through a distributor located at the bottom of the column. Dry compressed air from air compressor supplies oxidation air. Both caustic solution and air flow co-currently in upward direction inside the Regenerator. In contact with air, sodium sulfide is converted to sodium thiosulphate and sodium hydroxide, Sodium mercaptides are converted to disulfide oil (DSO) in presence of water and catalyst .Catalyst in liquid form is added to the system once in a day through catalyst addition vessel. A slip stream of the circulated solvent entering DSO Extraction column is fed intermittently to the regeneration Column. The solvent acts as deemulsifier in the Regeneration Column, Mixture of dry air, aqueous caustic solution and Naphtha flow upwards through perforated plate and then to chimney tray and caustic solution overflows. In this process vapour disengages liquid at the top of Regeneration Column, and off gas goes by pressure control through PV/PIC. The off gas is diluted with Fuel gas and sent to nearby furnace/heater via off gas Knockout drum .The liquid stream from chimney tray is fed to top of the DSO extraction column where it contacts with the main stream of fresh solvent (Hydro-treated Naphtha) and the recycled solvent. Fresh solvent is introduced into the column on flow control. The solvent is also recycled via pump and introduced at the top of DSO extraction column. In this process, the recycled Naphtha mixes with caustic and enters the DSO extraction column top. A stream of solvent and DSO is discharged to B/L. The combined caustic solution and Naphtha travel down co-currently in the contactor and extracts DSO into solvent stage. The main stream of regenerated caustic is pumped by caustic recirculation pump via Filter to caustic wash column .The purge aqueous caustic stream is taken out from the bottom of solvent separator and sent to spent caustic tank by level control. The purge caustic stream would be needed to maintain the sodium thiosulphate level in the regenerated caustic. To compensate for the loss of caustic a fresh 20 wt% caustic solution is added to the circulated regenerated caustic stream through pump into the Caustic wash column.
2.2.1.7 Fuel Gas Treating Unit
The basic purpose of the unit is to remove H2S from fuel gas. Sour fuel gas generated in various units is combined and routed to sour fuel gas knock out drum. Liquid particles in the fuel gas are separated in this drum. From the drum, the gases are routed to the bottom of the fuel gas amine absorber.
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Lean amine from ARU is introduced on the top the absorber. H2S from the sour gas gets absorbed in to the lean amine. The rich amine flows out under level control to ARU for regeneration. From the top of the absorber, the sweetened fuel gas under absorber pressure control is passed to sweet fuel gas separator, where any amine entrained in the gas is trapped and sweet fuel gas is routed to fuel gas system. Liquid collected in the sweet fuel gas separator is periodically drained to the amine sump. Rich amine from column bottom is routed to ARU for regeneration.
2.2.1.8 Hydrogen Generation Unit (HGU)
The Hydrogen Generation Unit design is based on catalytic reforming and pressure swing adsorption (PSA) system to produce 99.9 mole% pure hydrogen gases. Hydrogen is produced by steam reforming of Natural Gas.NG after mixing with recycled hydrogen and superheated steam enters the reformer furnace. Superheated steam is again added at the outlet of pre-reformer to adjust the steam-carbon ratio, and the mixture is heated. The superheated feed-steam mixture is distributed through multi-tubular reactor consisting of high alloy reformer tubes containing nickel-based catalyst. To carry out the reactions producing CO, CO2 and H2, heat is supplied by a number of burners burning PSA purge gas and natural Gas. The reformed gas after being cooled undergoes shift conversion in shift converters. These are cylindrical fixed bed reactors containing iron/chromium oxide or copper/zinc oxide catalyst. Shift conversion reaction converts most of CO into CO2 and H2 in presence of the catalyst. The heat removed from the converted process gas is used to vaporize and further heat the feed, and preheat boiler feed water and demineralised water (make-up). Hydrogen is purified to remove inert gas impurities like CO2, CO, CH4, N2 and water vapour by high-pressure adsorption of these impurities on molecular sieves, active carbon and alumina gel in Pressure Swing Adsorption (PSA) system. All adsorbed gases are removed during desorption and regeneration of the beds, and used as reformer fuel. Desorption of impurities is done at low pressure and purge gas is used as fuel.
2.2.1.9 Sour Water Stripper Unit Refinery Sour Water Stripper
Refinery Sour Water Stripper is designed to treat sour water from CDU/VDU, HGU, DCU and intermittent sour condensate from SRU & TGTU. The H2S recovered is sent to SRU for reduction to elemental merchant-grade Sulphur. The Ammonia-rich stream is considered to be disposed-off by burning in the SRU Ammonia Incinerator. The stripped water from Single Stage SWS is sent to CDU de-salter make-up and to ETP for disposal. Sour water from above described units is received from a common line in a sour water surge drum floating on acid gas flare header back pressure. This surge drum is a three stage (V-LL) separator. Flashed hydrocarbon vapors are separated and routed to acid gas flare. Oil carryover, if any, is skimmed off from drum and drained to OWS. Sour water from the surge drum is pumped by single stage SWS feed pump to single stage stripper column under surge drum level control cascaded to flow controller through feed/bottom exchanger. The feed/bottom exchanger preheats the sour water feed. The stripper is equipped with a LP steam heated re-boiler and a pump around circuit consisting of re-circulating pumps and air cooler. Column overhead temperature is controlled by varying flow through air cooler/by-pass in pump around circuit using a three-way control
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valve. Column overhead pressure is controlled by controlling flow of sour gas (NH3+H2S) to SRU.
This sour gas can also be routed to acid gas flare when SRU is under maintenance. The sour gas line to SRU should be steam jacketed. The steam flow to re-boiler is controlled by a flow ratio controller that resets steam flow in accordance with sour water feed to column. Stripped water containing NH3 and H2S less than 50 wt. ppm each is pumped by stripped water pumps under level control. It is cooled in feed/bottom exchanger, before routing to CDU de-salter. A water-cooled exchanger, which is designed to cool stripped water from single stage and two-the water is to be sent to the WWTP. In order to prevent evolution of H2S/NH3 while draining sour water to an open sewer, a closed blow down drum (CBD) system is envisaged. The CBD system consists of a CBD drum and a CBD pump. The CBD drum is connected to the acid gas flare in order to route all H2S/NH3 rich vapors that may evolve during equipment draining to flare. Provision is kept for pumping all the drain liquid collected in CBD drum back to sour water surge drum for stripping.
Hydroprocessing Sour Water Stripper Hydro processing Sour Water Stripper Unit-II is designed to treat sour water from DHDT and NHT. The stripped water from two stage stripper is sent separately to DHDT and NHT or to ETP. Hot Sour water from DHDT and NHT is mixed with ammonia rich recycle (to keep H2S in solution & for constructive recovery), cooled in a water cooler to 37 0C, and received in a surge drum, a three stage (V-L-L) separator. Any hydrocarbon that flashes is separated out and joins ammonia stripper overhead line to be routed to incinerator. The entrained oil, if any, is skimmed off from drum and drained to OWS. The sour water is sent to sour water storage tanks under level control. The day tanks and stripper feed pumps are normally located behind SRU ammonia incinerator vent stack. The sour water day tanks serve the following purposes: A floating skimmer (with swivel joints and steam traced “try” lines are provided to skim off separated oil. The tanks are blanketed with nitrogen to keep off air/oxygen. The tanks release vapors containing H2S, ammonia (during out breathing if ammonia rich recycle stream is not available) through a fisher assembly to join SRU ammonia incinerator vent stack to release these vapors at safe height. The sour water from tanks is pumped to the 1st stage H2S stripper column under flow control through feed/bottom exchanger where the incoming sour water feed is preheated against 2nd stage bottoms, i.e., stripper water. The feed enters the column feed tray. A slip stripped water stream quantity is taken from the inlet of feed/bottom exchanger and sent as hot wash water under flow control to the 1st stage stripper column. The temperature of this wash stream is very important for column steady performance. H2S stripper is equipped with MP steam heated kettle reboiler to provide the reboiling duty required. This column normally operates at a top pressure of 7.0 Kg/Cm2g and pressure is controlled by PIC in overhead vapour line. The stripping section removes most of the H2S coming in sour water feed. The overhead wash section condenses most of the steam and almost pure H2S is produced at the column top. This H2S gas is routed to SRU for Sulphur Recovery, in a steam traced line.
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The MP steam flows to reboiler. Condensate withdrawal scheme are same as the single stage stripper column. MP condensate is routed to SRU condensate handling system. The sour water from the H2S stripper bottom, containing almost all ammonia and small quantity of unrecovered H2S, is fed to second stage ammonia stripper column under level control. The ammonia stripper overhead is floating with the SRU ammonia incinerator header back pressure. The sour water is fed at the 2nd stage stripper feed tray. Alternate feed tray is also provided for operational flexibility. The section below feed tray is stripping section with two pass trays. The required reboiling duty for this column is supplied by the LP steam heated kettle reboiler, LP steam flow/condensate withdrawal control schemes similar to the other two columns. The FRC cascading is with sour water feed to H2S stripper to maintain a constant rate of steam to sour water feed. This ratio should be sufficient to bring down ammonia content below 50 ppmw in stripped water from column bottoms. LP condensate is routed to SRU condensate handling facility. The overhead pump-around circuit consists of circulating reflux pumps and circulating reflux air cooler. The pump takes suction from chimney tray and circulates at a constant rate under flow control (cascaded with column top temp.).This circulating reflux is fed at the column top. The ammonia (with small H2S quantity) coming out from column top is routed to SRU ammonia incinerator through a steam jacketed line. An ammonia-rich slip stream from pump-around circuit (before air cooler), under flow control, serves as recycle stream to be mixed in hot sour water feed, before feed mix cooler, during normal operation.
2.2.1.10 Amine Regeneration Unit (ARU)
The function of Amine Regeneration units is to remove the acid gases (H2S and CO2) from the rich amine streams produced in the refinery processing units. Rich amine from various absorber units is received in a flash column. Rich amine is allowed to flash in the column to drive off hydrocarbons. Some H2S also gets liberated. The liberated H2S is again absorbed by a slip stream of lean amine solution making counter current contact with liberated gases over a packed bed. From the flash column, the rich amine is pumped by rich amine pumps under flow control to amine regenerator, after preheating in lean amine/rich amine exchanger. In lean amine/rich amine exchanger, the heat is supplied to rich amine by hot lean amine on shell side from the bottom of amine regenerator under level control. The lean amine from lean amine/rich amine exchanger is further cooled in lean amine cooler and routed to amine storage tank. Another part of lean amine from lean amine cooler is used as slip steam to cartridge filter to remove solid particles picked up amine in the system. It is also used to remove foam causing hydrocarbon substances and thereafter routed to amine storage tank. In amine regeneration column, reflux water enters the column top and descends down. This prevents amine losses into the overhead and ensures complete removal of H2S. The re-boiler vapor from the bottom of the tower counter currently contacts the rich amine and strips off H2S. The overhead vapours from regenerator are routed to regenerator overhead condenser, where most of the water vapours condense and are pumped by amine regenerator reflux pumps as reflux to the column. The acid gases are routed to the SRU. In case the pressure goes high, acid gases are released to the acid flare. Re-boiler heat by LP steam is supplied to the column through amine regenerator re-boiler.
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2.2.1.11 Sulfur Recovery Unit with Tail Gas Treatment Unit
Feed to SRU comprises of acid gas from ARU and sour gas from SWSU. Acid gas from ARU passes through acid gas knock out drum, to remove any liquid carryover, before feeding to main burner. Similarly, any liquid carryover in sour gas from SWSU is removed in sour gas knock out drum. The air to main burner is supplied by an air blower, which also supplies air to Super Claus stage and sulfur degassing. The air to the main burner is exactly sufficient to accomplish the complete oxidation of all hydrocarbons and ammonia present in the feed gas and to burn as much H2S as required to obtain desired concentration. The heat generated in the main burner is removed in the waste heat boiler by generating steam. Then the process gas is introduced into the first condenser in which it is cooled, sulfur vapor condensed and is separated from gas.
Upstream of 1st Claus reactor, the process stream from waste heat boiler is heated in 1st steam reheater to obtain optimum temperature for the catalytic conversion. The effluent gases from 1st reactor passes onto 2nd sulfur condenser where sulfur vapor is condensed and uncondensed process gases pass to the 2nd steam reheater. Heated vapors are again subjected to conversion in the 2nd Claus reactor followed by cooling in the 3rd sulphur condenser. Then the process gas passes to the 3rd steam reheater and the 3rd Claus reactor. To obtain a high sulfur recovery the process gas is passed to the 4th and last catalytic stage, indicated as the Super Claus stage. The process gas is heated in the 4th steam reheater, and mixed with preheated air. Proper mixing is achieved in a static mixer. In Super Claus stage, H2S is selectively oxidized into sulfur. The gas then passes to the 4th and last condenser. Sulfur condensed in condensers is routed via sulfur locks to sulfur cooler and drained into sulfur degasification vessel. Stripping air is supplied to the spargers located at the bottom side of the vessel. This strips off H2S from liquid sulfur and oxidizes the major part of H2S to sulfur. Air leaving the stripping columns, together with H2S released from sulphur degasification vessel, and is routed to TGT Unit Tail Gas Unit Tail gas enters the hydrogenation reactor preheated at 130oC. H2 reducing gas is mixed with Claus tail gas in the preheat effluent stream via a controller which is reset by the SO2 concentration in the downstream of the hydrogen reactor. The effluent is preheated under temperature controller by an electrical heater. A pre-sulfiding line is provided to activate the TGU catalyst using acid gas from the acid gas KOD. This line is not used for normal operation. The hot preheated effluent passes through the catalyst bed of the hydrogenation reactor where SO2 and other sulfur compounds are converted to H2S. Due to exothermic reaction, the gas temperature increase over the reactor to. The reactor inlet temperature should be held reasonably steady to provide stable conditions in the reactor. To avoid excessive outlet temperature, the inlet gas may be controlled at somewhat lower temperature to compensate for more SO2 and/or S in the tail gas feed. However, excessively low reactor inlet temperature will result in poor conversion. The SO2 monitor at the reactor effluent is observed to maintain an excess of ~3% H2. In addition, if the circulating water in the quench loop shows the presence of finally divided sulfur this indicated incomplete reaction and the SO2 has reached the column to form sulfur via the Claus reaction:
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2H2S + SO2 3S + 2H2O This behavior should be monitored as the presence of the sulfur not only means the reaction is incomplete but the column can be plugged. Monitoring the pH of the quench water provides a pre-warning to an impending problem. The pH should be maintained near 7.0. Hot reactor exit gas must be cooled before entering the absorber. A first stage gas cooling is accomplished by generating steam at the TGU waste Heat Boiler, decreasing the process gas temperature. BFW is fed to the shell side of the TGU-WHB on level control and low pressure steam is generated. When the steam flow and/or BFW flow rate changes, the water level in the steam generator vary. Rising level in the generator indicated that the BFW flow rate is exceeding the rate of steam generation. In this case, signal to the level control valve will decrease. If the steam generation exceeds the BFW rate, level will decrease. In this case, signal to the level control will increase. The process gas enters to the quench column. The quench water re-circulating loop consists of the quench water pump, filter and water cooler. The cooler remove the heat from the column, cooling the inlet gas. The water flow to the top of the column is controlled after being filtered by quench water filter. Decreasing the water flow rate will increase the bottom temperature. Increasing the water rate will increase the load in the quench water circulation pumps and flow through the quench water cooler and column. The quench column recirculation system has the provision to adjust the pH by addition of ammonia to the column recirculation line. The pH of the quench water to the water pump is monitored and kept at a value between 7 and 9 in an effort to prevent corrosion and inhibit colloidal sulfur formation. The water system should be visually inspected for cloudiness. Low pH will indicate incomplete reduction of sulfur compounds. Sour water condense from the inlet feed is removed from the quench water loop via a level controller from the quench column and is sent offsite to sour water storage. The rate depends on the water in the Claus tail gas, water produced in the hydrogenation reactor and the amount of water overhead in the quench column. The overhead line from the quench column flows to the absorber. The absorber is a packed column and is designed to absorb practically all the H2S in the recirculating Amine solvent. The absorber over head is routed to the incinerator. The absorber bottom liquid is pumped by the rich solvent pump to common amine regenerator section. The purpose of the incinerator system is to oxides all the sulfur compounds in the tail gas to SO2 and to vent the oxidized stream at high temperature and at a high elevation. The incinerator system included the two primary sections: In the incinerator burner, fuel gas is burned with excess air to a temperature over 1650oC. The temperature is sufficient to heat the tail gas from TGU to ~768 deg. C. This temperature is sufficient to oxidize the residual H2S and sulfur compound, while minimize NOx and SO3 formation. The effluent is discharged to the incinerator stack. The stack height of 60 meters is set to ensure dispersion of SO2 and to meet ground level concentration limits. Effluent tail gas from the TGU absorber is thermally oxidized with air to convert reaming sulphur compounds to SO2. Fuel gas and excess air are combusted at high temperature at the incinerator burner. Then it is mixed with the absorber overhead tail gas in the primary oxidation chamber. The fuel gas and air rates are adjusted to control the temperature of the mixed
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and oxidized tail gas stream. The air is supplied by a dedicated incinerator air blower. Excess air is used to ensure sufficient oxygen is present to oxides the sulphur and other sulphur compound. Oxidation reactions are as follows:
H2S + 3/2 O2 SO2 + H2O
2COS + 23 O2 2 CO2 + 2SO2 CO + ½ O 2 CO2
CS2 + 3 O2 2SO2 + CO2 n S + nO 2 n SO2
The incinerator effluent temperature is measured and used to adjust the flow rate of fuel gas to maintain the desired operating temperature of 768 deg. C. The incinerator is refractory lined with an external thermal shroud to control the shell temperature. Skin thermocouples are provided to monitor the shell temperature. The shell temperature should be maintained between 149 – 350 deg. C. The air blower is designed to provide supply of air and stack while providing a minimum of 2% excess O2 at an operating temperature of 768 deg. C. Ambient air is drawn through the inlet filter to remove solid debris and to protect against water during heavy rainfall. The combustion gas from the burner and combustion chamber flow into the incinerator where adequate residence time is provided for combustion. The incinerator stack vents the effluent to the atmosphere. A SO2/O2 analyzer is provided to determine the SO2 and O2 in the effluent stream.
2.2.1.12 Ebullated Bed Hydrocracker
Fresh hydrocarbon liquid feed is mixed with hydrogen and reacted within an expanded catalyst bed that is maintained in turbulence by liquid up-flow so as to achieve efficient isothermal operation. Product quality is constantly maintained at a high level by intermittent catalyst addition and withdrawal. Reactor products flow to the high pressure separator, low pressure separator, and then to product fractionation. Recycled hydrogen is separated and purified. Process features include on-stream catalyst addition and withdrawal, thereby eliminating the need to shut down for catalyst replacement. The expanded bed reactors operate at near isothermal conditions without the need for quenches within the reactor. The reaction section uses a commercially proven low pressure hydrogen recovery system. Separating the reactor effluent and purifying the recycled hydrogen at low pressure results in lower capital cost and allows design at lower gas rates. The untreated VGO from hydro-cracking section is sent to integrated VGO hydro-treater. The treated VGO product from the unit becomes feed to downstream cracking unit for further conversion. Unconverted oil from an Ebullated bed HCU is sent to another heavy oil conversion unit for further upgrading.
2.2.1.13 PFCC
PFCC is a fluidized catalytic process for selectively cracking a variety of feed stocks to light olefins. PFCC is similar to conventional FCC in terms of basic process employed. But the conversions are higher in PFCC. The objective of PFCC is maximization of LPG with higher selectivity towards propylene. LPG yield is typically 37-40 percent and propylene is typically 20%. Dry gas produced from this unit is rich in ethylene.
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Hence, PFCC unit provide opportunity for establishing downstream petrochemical units. Propylene is recovered from LPG in downstream PRU and sent to polypropylene unit. There is potential to use the dry gas rich in ethylene for the production of styrene monomer after reacting with benzene to form ethyl benzene.
To achieve the higher conversions, unit operates at higher severity with reactor temperature of 555-565 deg C, higher quantity of dispersion steam in the reactor and higher catalyst to oil ratio. The catalyst employed is zeolitic in nature. High ZSM-5 to the extent of ~ 15% is added to achieve the desired conversions and propylene make. Some licensors offer the catalyst impregnated with ZSM-5.
The Petrochemical FCC reactor regenerator system utilizes a reactor/riser, catalyst stripper, 1st stage regeneration vessel, 2nd stage regeneration vessel, catalyst withdrawal well and catalyst transfer lines. Fresh feed, from upstream VGO HDT Unit, is finely atomized with dispersion steam and injected into the riser through feed injection nozzles over a dense catalyst phase. The small droplets of feed contact the freshly regenerated catalyst and instantly vaporize. The oil molecules mix intimately with the catalyst particles and crack into lighter and more valuable products.
As the reaction mixture travels up the riser, the catalyst, steam and hydrocarbon product mixture passes through a riser termination device. This device quickly disengages the catalyst from steam and product vapours. Reactant vapours are then ducted to the top of the reactor near the reactor cyclone inlets, while catalyst is discharged into the stripper through a pair of catalyst dip legs. The vapours with entrained catalyst pass through single-stage high-efficiency cyclones. Reactor products, inerts, steam and a minute amount of catalyst flow into the base of the main fractionator and are separated into various product streams.
Below the dense catalyst bed in reactor vessel, a steam ring strips off volatile hydrocarbon material from reacted catalyst particles. Stripped catalyst leaves the reactor vessel through catalyst withdrawal pipes and enters the 1st stage regenerator through a catalyst distributor that disperses the catalyst onto the bed surface. Catalyst and combustion air flows counter currently in the 1st stage regenerator vessel. Partially regenerated catalyst exits near the bottom of the vessel through a hollow stem plug valve. A lift line conveys the catalyst into the 2nd stage regenerator vessel utilizing lift air. CO-rich flue gas from the regenerator vessel exits through two-stage high efficiency cyclones.
A mushroom grid evenly distributes the catalyst in 2nd stage regenerator vessel. Any carbon remaining in the catalyst is completely burned off with an excess amount of air in this regeneration stage. This results in high temperatures. Several design features like external cyclones and a catalyst cooler are incorporated to minimize any mechanical and/or physical temperature limitation. Hot regenerated catalyst flows into a withdrawal well, through regenerated catalyst slide valves and into the "wye" section at the base of riser. Here, it meets the hot feed. The PFCC gas recovery section employs a low pressure drop main fractionators design with warm reflux overhead condensers to condense the large amount of steam used in the convertor. A large wet gas compressor is required relative to PFCC operation because of high amount of dry gas and LPG. The absorber and stripper columns, downstream of the wet gas compressor are specifically designed for enhanced C3 recovery at relatively gasoline rates.
In addition to the above three products, the product fractionators separates the catalytically cracked material into heavy naphtha, light and heavy cycle oils and catalyst slurry. The heavy cycle oil is recycled back to the reactor. The catalyst slurry contains some lighter hydrocarbon oil, clarified oil, which is subsequently separated and may be recycled back to either the reactor or to the internal fuel oil pool.
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The flue gas handling system downstream of the PFCC regenerator requires considerations no different than those of as PFCC system. It consists of a flue gas slide valve to control the differential pressure between the reactor and regenerator followed by an orifice chamber. Heat is recovered by flue gas cooler in the form of high-pressure superheated steam.
2.2.1.14 FCC GDS
FCC Gasoline Desulphurization unit comprises of following sections: 1. SHU Reactor Section
The Gasoline feed from upstream FCC unit is first routed to Feed Filters Package and is then pumped to the SHU section after mixing with hydrogen. The feed/hydrogen mixture is heated by exchanging heat with the SHU Reactor Feed / HDS Effluent exchanger and finally heated in Feed Preheater. The reactor contains two beds. The reactor effluent is cooled down by exchanging heat with the feed in the SHU Reactor Feed / Effluent Exchanger. Then the effluent flows to the Splitter. 2. Splitter Section
The purpose of the Splitter is to produce Light Cracked Naphtha (LCN) and a Heavy Cracked Naphtha (HCN). The Splitter overhead is partially condensed in the Splitter overhead air condenser and then it flows to the Splitter Reflux Drum where the vapor phase and liquid phase are separated. Liquid phase is routed back while the sweet vapor phase is routed to the refinery Fuel Gas system. The LCN product is drawn from a partial draw-off chimney tray under flow control. The LCN product is sent to be recombined with desulfurized HCN from stabilizer section before cooling.
3. First Stage HDS Reaction Section
The Splitter bottoms product is pumped and is combined with the recycle hydrogen coming from Recycle Gas Compressors. The mixture is preheated in the First Stage HDS Reactor Feed / Effluent Exchangers and is routed to First stage HDS Reactor. The HDS reactor is divided into 2 beds. The overall temperature rise in the reactor is controlled if needed by injection of a gaseous. The quench for both HDS reactors is coming from the Recycle Gas Compressors.
The HDS effluent is further heated in the First Stage HDS Reactor Heater so that the effluent entering is fully vaporized. The effluent from the First Stage HDS Reactor Heater is then cooled in the First Stage HDS Reactor Feed / Effluent Exchangers and routed to the First Stage HDS Hot Separator Drum in order to separate the liquid and the vapor phase.
The liquid phase is pumped and sent to the H2S Stripper. The vapor phase is then cooled and the mixed phase is separated in the First Stage HDS Cold Separator Drum. The First Stage HDS effluent is water washed on a monthly basis in order to avoid any precipitation of ammonium salts.
2.2.2 RAW MATERIAL REQUIRED FOR NREP The raw materials required for refinery operation are listed below and presented in Table 2.4.
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Table 2.4 List of Raw materials used in Refinery Operation
Sr. No. Raw Material
LPG Minimization Case
Propylene Maximization Case
1. Crude Oil 6 6
2.
Natural Gas (for STG) (KTPA) 301 196
Natural Gas (for HGU) (KTPA) 185 281
Natural Gas (for Process firing) (KTPA)
8 -
CRUDE RECEIPT FACILITIES Crude will be transported from Paradip port through new pipeline to new refinery train. 8 Nos. of new crude storage will need to be considered at Paradip port as part of Crude Oil Terminal. Product Dispatch Facilities Additional product dispatch facilities, required, both at Numaligarh and Siliguri. Part of white oils (MS/SKO/HSD) is transported from Numaligarh to Siliguri by the new multiproduct Numaligarh Siliguri pipeline.
2.2.2.1 Product Portfolio
The product slate in the additional train favors maximization of Domestic regular Motor spirit (BS-VI) and Domestic High speed diesel (HSD) (BS-VI). Table 2.5 gives the present product slate.
Table 2.5 Proposed Product Slate for NREP
Feed Purchase LPG Minimization Case (MMTPA)
Propylene Maximization Case (MMTPA)
Arab Light 1.8 1.8
Arab Heavy 4.2 4.2
Natural Gas 0.494 0.477
VR of existing refinery VDU 0.306 0.306
Coker Light and Heavy Naphtha from existing refinery DCU
0.045 0.045
HCGO from existing refinery DCU
0.109 0.109
Product Sales (MMTPA)
LPG 0.500 0.954
BS VI Gasoline 1.572 1.301
Light Distillate 2.072 (29.8%) 2.155 (32.5%)
BS-VI HSD 3.370 3.180
Middle Distillate 3.370 (48.5%) 3.18(45.8%)
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2.2.2.2 Product specification
Important specifications of major products of Numaligarh Refinery (NRL) are given in below Table 2.6.
Table 2.6 Product Specification of NRL
Product / Parameters Unit Specification Target
Specification
LPG Vapor pressure at 40 °C, max KPa 1050 1050
Odor, min 2 2
C2 minus content, max wt% 0.2 0.2
C5 plus, max wt% 2 2
Total volatile sulfur, max wtppm 200 200
Copper strip corrosion, max No. 1 No. 1
Hydrogen sulfide wtppm Nil Nil
Mercaptans wtppm Nil Nil
Free water Nil Nil
Evaporation temperature for 95 vol%,max
°C 2 2
Naphtha As produced As produced
Low Sulphur Fuel Oil Flash point °C 66 66
Pour point, max °C 10 10 Total Sulfur, max wt% 3.5 3.5 Kinematic Viscosity at 50 °C, max
cst 80 80
Sediment, max wt% 0.25 0.25 Ash, max wt% 0.1 0.1 Acidity (inorganic) mg KOH/gm Nil Nil Water content, max vol% 1 1
Product Specification Target
Specification
Regular Motor Spirit/Gasoline (BS-VI)
Appearance
Clear and Bright. Free from un-dissolved water, foreign matter and other
visible impurities.
Clear and Bright. Free from un-dissolved
water, foreign matter and other visible
impurities.
Colour a) MG 91
b) MG 95 Orange Red Orange Red
RUF bottoms to existing Coker
0.561 0.544
Heavy distillate 0.561(8.1%) 0.544 (7.8%)
Sulfur (TPD) 434 434
Fuel and Loss 0.805 (11.6%) 0.812 (11.7%)
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Product Specification Target
Specification
Density at 15oC, kg/m³ 720 - 775 720 - 775
Distillation:
a) percent evaporated at 70oC (E 70oC), percent v/v
(i) Motor Gasoline 10 – 45 10 – 45
(ii) E10
10 -55 (Summer)
10-58 (Other months)
10 -55 (Summer)
10-58 (Other months)
b) percent evaporated at 100oC (E 100 oC), percent v/v
40 – 70 40 – 70
c) percent evaporated at 150oC (E 150 oC), percent v/v , Min
75 75
d) Final Boiling Point, oC, Max 210 210
e) Residue, percent by volume, Max 2.0 2.0
Research octane number (RON), Min:
91 91.5
Motor octane number (MON), Min: 81.5
81.5
Gum content (Solvent Washed), g/m3, Max
40
40
Total sulphur, mg/kg, Max 10
10
Lead content (as Pb ), g/l, Max 0.005 0.005
Reid vapour pressure (RVP) at 38oC, kPa , Max: a) MG (without ethanol) b) Ethanol blended MG
60 67
60 67
Vapour Lock Index (VLI), Max Summer / (Other months)
Summer / (Other months)
a) MG (without ethanol) b) MG (with 5 percent v/v ethanol) c) E10
750 / (950) 900 / (1050)
1050 / (1100)
750 / (950) 900 / (1050)
1050 / (1100)
Benzene content, percent by volume, Max.
1 1
Copper strip corrosion, for 3 hr at 50oC, Max
Not more than No. 1 Not more than No. 1
Water tolerance of Motor gasoline - alcohol Blends, temperature for phase separation:
a) Winter, oC, Max 0 0
b) Other months, oC, Max 10 10
Engine intake system cleanliness Report MFA used Report MFA used
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Product Specification Target
Specification
Olefin content, percent by volume, Max: a) MG 91 b) MG 95
21 18
21 18
Oxidation Stability, minutes, Min 360 360
Aromatics content, percent by volume, Max
35 34.5
Oxygen content, percent by mass, Max 3.7 3.7
Ethanol content, percent by volume a) Motor gasoline b) E10
5.0
10.0
5.0 10.0
Oxygenates percent by volume, Max
a) Ethers containing 5 or more “C” atoms per molecules such as MTBE, ETBE or TAME
15 15
b) Any other oxygenates Not permitted Not permitted
Product Specification Target
Specification
Diesel (BS-VI)
Appearance clear, bright and free from sediments, suspended matter and un-dissolved water at normal ambient fuel temperature
Acidity, inorganic, mg of KOH/g Nil Nil
Acidity, total, mg of KOH/g, Max 0.20 0.20
Ash, percent by mass, Max 0.01 0.01
Carbon residue (Ramsbottom or micro) on 10 percent residue1), percent by mass, Max
0.30 0.30
Cetane number, Min 51 51.5
Cetane index, Min 46 46
Pour point, Max: a) Winter b) Summer
3°C 15°C
3°C 15°C
Copper strip corrosion for 3 h at 50°C Not worse than No. 1 Not worse than No. 1
Distillation, 95 percent v/v, recovery, °C, Max
360 360
Flash point, Abel4), °C, Min 35 35 (Note-1)
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Product Specification Target
Specification
Kinematic viscosity, cSt, at 40°C 2.0 to 4.5 2.0 to 4.5
Total contamination, mg/kg, Max 24 24
Density at 15°C, kg/m3 810 – 8455 810 – 8455
Total sulphur, mg/kg, Max 10 10
Water content, mg/kg, Max 200 200
Cold Filter Plugging Point (CFPP), Max: a) Winter b) Summer
6°C 18°C
6°C 18°C
a) Oxidation stability, g/m3, Max b) Oxidation stability by Rancidity meter, hours, Min
25 20
25 20
Polycyclic Aromatic Hydrocarbon (PAH), percent by mass, Max
8 8
Lubricity corrected wear scar diameter (wsd 1.4) at 60°C, microns, Max
460 460
FAME content, %v/v, Max 7.0 7.0
Note: Desired flash point target is 38 for pipeline transfer. 2.2.3 UTILITIES CONSUMPTION FOR NREP
The utility facilities for the refinery consist of the following:
Raw water system
Cooling tower system
DM water System
Fire water system
Compressed Air System
Nitrogen system
Steam system
Power system
Boiler feed water system
Condensate system
Condensate recovery system
Fuel gas system
Flare system
Natural Gas system
The utility systems are an integral part of the refinery and constructed on the Refinery site. The refinery is self-sufficient in all its utility requirements except raw water which is brought from outside (Dhansiri River) the refinery. Major utility systems of additional train are summarized below in Table 2.7.
Table 2.7 Proposed Utility Systems of Additional Train of NRL
S No. Description Specification
1. Re-circulating cooling water system
A Cooling Tower (11W+3SB) cells of 4000 m3/hr cap. each
B Re-circulating pumps (6W+2SB) pumps of 8000 m3/hr cap. Each
C H2SO4 dosing pump (1W + 1 SB) pumps of 80 lit./hr cap. each
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S No. Description Specification
D H2SO4 unloading/transfer pump (1W + 1 SB) pumps of 5 m3/hr cap. each
Single cooling water system will cater to the requirements of process units, offsite & CPP within the complex. The cooling water system includes cooling towers, pumps, cooling water treatment facilities and other auxiliary items.
2. RO-DM Water System
A Resin based RO-DM Plant 200 m3/hr capacity
B RO-DM Water storage tanks 2 nos. having the dimensions as 27 m dia & 14 m ht
C RO-DM transfer pumps (1W+1SB) pumps of 500 m3/hr cap. each
3. Condensate System
A Condensate polishing unit Two numbers (1W+1SB) each of 85 TPH capacity
B Unpolished and Polished Condensate storage tank
(1W + 1S) of 12 m dia X 8 m ht.
C Un polished Condensate pumps
(1W+1SB) pumps of 85 m3/hr cap. Each
D Polished Condensate pumps (1W+1SB) pumps of 85 m3/hr cap. Each
4. Compressed air system
Compressed air system comprises of:
Plant air capacity = 3160 Nm3/hr
Instrument air capacity = 7042 Nm3/hr
Compressor designed for 10000 Nm3/hr
Instrument air driers = 2 X 5000 Nm3/hr (Dual Bed Adsorption)
5. Nitrogen System
Nitrogen is required during catalyst regeneration, purging, blanketing etc.
Gaseous nitrogen = 1500 Nm3/hr
Liquid nitrogen = 225 Nm3/hr (Gaseous equivalent)
6. Fuel Gas
Total requirement of fuel in all the furnaces within the process units would be met mostly by fuel gas system. One no. fuel gas KOD having the dimensions as 1.5 m dia X 3.8 m ht.
7. Raw water system
A Raw water reservoir 1 reservoir capacity 72000 m3
B Raw water treatment plant 2 raw water treatment plant of capacity 1115 m3/hr each
C Treated water reservoir (2 nos.) – Capacity of each
16800 m3
D Treated water pumps 1. Cooling water makeup pumps (2 W + 1S) each of 650 m3/hr capacity
2. Service water pumps (1 W + 1S) each of 110 m3/hr capacity
3. DM water plant feed pumps (2 W + 1S) each of 340 m3/hr capacity
4. Fire water pumps (1 W + 1S) each of 200 m3/hr capacity
5. Fire water Jockey pumps (1 W + 1S) each of 5 m3/hr capacity
6. Drinking water pumps (1 W + 1S) each of 40 m3/hr capacity
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S No. Description Specification
8. Captive Power Plant (Fuel to CPP is Natural Gas)
Total 135 MW power is required for new expansion of refinery. The details as given below: Power requirement of the new 6 MMTPA refinery shall be met by two nos of STG and grid power. One new STG producing 12 MW of power and one new STG producing 23 MW of power to be installed in the proposed CPP. Additional power requirement for catering to the new refinery to be imported from grid power.
9. Flare System
The flare system consists of two flares for HC and for Sour gas. The flare loads from the new refinery will be connected to a new flare. The both HC flare system consists of one stack of 72 in. dia and 100 m stack length & sour gas flare system consists of one stack of 24 in. dia and 100 m stack length, Flare system also has one flare headers, one Flare KOD each for HC flare and sour flare system and one fuel gas KOD.
10. Natural Gas system
2.3 MMSCMD of Natural gas will be made available for the new refinery and the same is envisaged as fuel for utility boiler and process units, as required. In case higher quantity of natural gas is required, the same shall be made available by NRL.
11. Steam & Power system
The steam shall be produced in the boilers of the steam and power generation system. The fuel to steam and power generation system shall be a Natural Gas. Steam is distributed to the refinery consumers at three levels, viz: HP, MP and LP.
1 Utility boilers Package
a) Numbers of Boilers 2W + 1S
Capacity of Each Boiler 275 TPH
Steam level 106 kg/cm2g, 510 deg.C
b) Facilities required:
(i) Dearaetor 1 no. (Cap 820 m3/hr)
(ii) VHP BFW Pumps: 2W + 1S
Type : Centrifugal Capacity : 250 m3/hr each
Head : 1300 m MOC : Casing: 12% Chrome
Impeller : 410 SS Power of each pump: 1250 KW
Type of drive: 1 pump Steam driven (HP to LP steam extraction), 2 pumps motor driven
(iii) HP BFW Pumps: 1W + 1S
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Type : Centrifugal Capacity : 150 m3/hr each
Head : 600 m MOC : Casing: 12% Chrome
Impeller : 410 SS Power of each pump: 350 KW
Type of drive: 1 pump Steam driven (HP to LP steam extraction), 1 pumps motor driven
(iii) MP BFW Pumps: 1W + 1S
Type : Centrifugal Capacity : 150 m3/hr each
Head : 350 m MOC : Casing: 12% Chrome
Impeller : 410 SS Power of each pump: 220 KW
Type of drive: 1 pump Steam driven (HP to LP steam extraction), 1 pumps motor driven
2 CPP
Total Power Requirement ; 135 MW (1 extraction type STG of 22 MW +1
extraction type STG of 13 MW + balance 100 MW from grid power)
2.2.4 DETAILS OF OFF-SITE FACILITIES FOR NREP
Details of additional Crude Storage tanks, finished product storage tanks and Intermediate feed storage tanks are given in Table 2.8.
Table 2.8 Proposed Off-site facilities in NRL Expansion
OFF-SITE FACILITIES
NO
. O
F T
AN
KS
CO
NS
IDE
RE
D STORE
D VOLU
ME PER
TANK
TANK HEIGHT
CONSIDERED
TANK DIAMETER CALCULAT
ED
PR
OD
UC
T
ST
OR
AG
E
CL
AS
S
ROOF TYPE
(in m3) (in m) (in m)
CRUDE STORAGE
Crude Tanks at Refinery 3 35500 14.5 59 A
Floating Roof
INTERMEDIATE STORAGE
RUF FEED TANK 1 14900 14.5 40 Unclassif
ied Fixed Roof
HCGO from Existing Refinery 2 3319 14.5 19
Unclassified Fixed Roof
DCU feed tanks 2 6214 14.5 26 Unclassif
ied
Fixed Roof, Nitrogen
Blanketed
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OFF-SITE FACILITIES
NO
. O
F T
AN
KS
CO
NS
IDE
RE
D STORE
D VOLU
ME PER
TANK
TANK HEIGHT
CONSIDERED
TANK DIAMETER CALCULAT
ED
PR
OD
UC
T
ST
OR
AG
E
CL
AS
S
ROOF TYPE
(in m3) (in m) (in m)
NHT feed 2 8900 14.5 30 A
Internal Floating
Roof with Nitrogen
Blanketing
SR VGO - 1 2 9800 14.5 46 C Fixed Roof
SR VGO - 2 2 12200 14.5 46 C Fixed Roof
PFCC FEED TANKS 2 15871 14.5 42 C
Fixed Roof, Nitrogen
Blanketed
DHT feed storage 2 19570 14.5 44 B
Floating Roof
Propylene 4 90 7 Mounded Bullets
PRODUCT STORAGE
LPG 6 90 8 Mounded
Bullets
Light Slop 2 4500 14.5 21 A
External Floating
Roof
Heavy slop 2 5000 14.5 21 B Fixed Roof
2.2.5 SULPHUR BALANCE
Sulphur Recovery Unit (SRU) capacity is estimated by sulphur balance calculation. This section provides the sulphur balance. Sulphur balance for NREP (selected case) is provided in Table 2.9.
Table 2.9 Sulphur Balance for 6.0 MMTPA
Feed Qty
(MMTPA) Sulphur (wt%)
Sulphur in feed (MMTPA)
ARAB LIGHT 1.8 1.83 0.03294
ARAB HEAVY 4.2 2.83 0.11886
NATURAL GAS 0.573 0 0
VR FROM EXISTING REFINERY 0.306 0.95 0.00291
HCGO FROM EXISTING REFINERY
0.109 2.49 0.00272
COKER NAPHTHA FROM Existing refinery
0.044 0.73 0.00032
Total Sulphur in feed 0.15775
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Sulphur content in product and fuel is considered as per the specification provided forsulphur against each product & fuel. • Sulfur Recovery Units has been considered with Tail Gas Treating (TGT)
facilities. Total sulphur recovery is 99.9%. • Based on the above, two trains of sulphur recovery unit of 230 TPD capacity
each is required.
Sulphur balance and SO2 emission from existing refinery (3.0 MMTPA refinery) is given below.
From existing refinery (3.0 MMTPA) SO2 emission limit is 256 kg/hr (6.14 TPD) & for new train 6.0 MMTPA limit is 330 kg/hr (7.92 TPD).
Products Qty
(MMTPA) Sulphur (wt%)
Sulphur in product(MMTPA)
MIXED LPG'S 0.668 0.009 0.00006
EURO VI REGULAR GASOLINE 1.906 0.001 0.00002
EURO VI DOMESTIC DIESEL 2.952 0.001 0.00003
RUF BTMS 0.57 2.3 0.01311
Total sulphur in product 0.01322
Sulfur Recovered MMTPA 0.144
SRU Capacity TPD 2x230
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Total SO2 emission limit for Post NREP is 586 kg/hr (14.06 TPD).
2.2.6 VAPOR RECOVERY FACILITY-VOC HANDLING UNIT
Volatile Organic Compounds (VOCs) are among the most important component emitted from the oil handling units. Due to the significant economic and environmental implications of disposing of VOC’s, much attention is being directed towards pollution-prevention techniques aimed at reducing VOC emissions from oil handling units in ETP in a cost-effective manner.
Units which are expected to generate VOCs in the Effluent Treatment Plant include the following:
Inlet collection system (Closed Drains & OWS Sump)
API Separators
TPI Separators
Flash Mixing Tanks
Flocculation Tanks
Dissolved Air Flotation Tanks
Slop Oil Sump
Slop Oil Tanks
Typical VOCs which are expected to be generated from these units include the following:
Propanone (acetone)
Ammonia
Benzene
Benzotrichloride
Hexane (-n)
Hydrogen Sulfide
Methanethiol (methyl mercaptan)
Butanone (methyl ethyl ketone, MEK)
Oil (decane as surrogate)
Phenol
Toluene
Xylene
Ethanethiol (ethyl mercaptan)
The VOC is estimated based on the USEPA model for estimation of VOCs. System design / sizing calculations have been done based on the VOCs estimated from the USEPA model and the breathing losses or displacement losses account for the volume entering the VOC control system or due to volatility of the compound.
The VOC Control System consists of fixed bed carbon adsorption bed, vents, carrying pipes, valves, ID fans, flame arrestors, carbon canisters and a stack to take out harmless air from the system. System is designed for compactness & minimization of operation cost by putting up in the vicinity where VOC emissions are generated.
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The major sources for VOC emissions sources have been broken into two Groups. Major polluting source like Inlet sump, API and TPI are grouped together. And other less polluting source like DAF, Flash mixing tank, Flocculation Tank and slop oil tank are grouped separately. More over selection of groups have been done to avoid fluctuations in VOC emissions from each source. Area of concern of the carbon adsorption system is that a high concentration level of some VOCs may cause the carbon to generate heat on the bed since the adsorption is an exothermic reaction. This heat may eventually build into a fire. Thus, the quantities of VOC’s need to remain below the Lower Explosive Limit (LEL) for the VOC compounds. In this regard sufficient primary air for operation below 25% LEL is introduced in the VOC collection system.
2.2.7 WATER BALANCE
Raw water shall be made available from the nearby River Dhansiri. Total Raw Water requirement for post NREP is 2508 m3/Hr. Present raw water requirement in existing refinery draws 688 m3/Hr. NRL has submitted application to Govt. of Assam for seeking the necessary permission to draw the additional raw water demand and 2465 m3/Hr is allocated by the Govt. of Assam (reference letter is attached as Annexure – VI). Table 2.10 shows the allocation of raw water in the additional train.
Table 2.10 Consumption and configuration of Raw Water System for Post NREP
A) Raw water requirement (m3/hr) (with 10% margin) 2508
B) Reservoirs (1 no.)
Cap :M3 72000
C) Treatment plant (2 nos.)
Capacity of plant :m3/h reach 1115 D)Treated water reservoir (2 nos.) :
Cap :M3 (Each) 16800
E) Pumps
1. CW Makeup 2w+1s
Type : Centrifugal Centrifugal
Capacity: m3/hr (Each) 650
2. Service water 1w+1s
Type : Centrifugal Centrifugal
Capacity: m3/hr (Each) 110
3. DM water plant Feed 2w+1s
Type : Centrifugal Centrifugal
Capacity: m3/hr (Each) 340
4. Firewater 1w+1s
Type : Centrifugal
Capacity: m3/hr (Each) 200
5. Firewater jockey pump 1w+1s
Type : Centrifugal
Capacity: m3/hr (Each) 5
6. Drinking water 1w+1s
Type : Centrifugal Centrifugal
Capacity: m3/hr (Each) 40
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Total water requirement for NRL refinery (post-NREP) is 2508 m3/hr. The overall water balance in post-NREP scenario is attached as Fig. 2.2.
Fig. 2.2: Overall Water Balance in Post-NREP
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2.2.8 ENVIRONMENT MITIGATION MEASURES
a) Air Pollution Management System
The atmospheric emissions related to the proposed facilities consist of:
Point or stack emissions from continuous combustion sources.
Fugitive Emissions from the process and storage units. Point or stack emissions
SO2 and NOx are the main air pollutants from the point source emissions.
Various steps taken by NRL to monitor and control the emission of SO2 and
NOx are summarized below:
Use of gaseous or liquid fuels in all the furnaces / heaters / boilers to
minimize emission of particulate matter.
Use of low sulfur fuel for minimization of SO2 emission.
Provision of Sulfur Recovery Unit (SRU) with > 99.9% efficiency to minimize
SO2 emission from the refinery complex.
Provision of low – NOX burners in heaters / furnaces / boilers to minimize NOX
emission.
Provision of online flue gas monitoring system in all the stacks as per
Minimal National Standards (MINAS) for new refineries.
Provision of stack of sufficient height as required by per CPCB’s guidelines
for better dispersion of the pollutants attached to all the furnaces / heaters /
boilers as well as process units.
All floating roof tanks along with crude oil tanks are provided with primary
and secondary seal.
Provision of 04 continuous Ambient Air Quality Monitoring (AAQM) Stations
and 01 Mobile AAQM van for AAQM with in and around refinery premises.
Provision of flares with feature of smoke free operation for the emergency
release (combustion / burning) from hydrocarbons of any process unit in case of
tripping of unit as an emergency safety devise.
Fugitive emissions
The major sources of such fugitive emissions of Volatile Organic Compounds (VOCs) in the refinery are the main processing area, tank farm area having storage tanks for crude oil and lighter products and the loading/unloading gantry area. These fugitive emissions originate from the static and dynamic joints and seals used in flanges, pumps, mixers, valve packing and connection joints to the atmosphere like sampling and relief valves etc. In order to minimize the fugitive emissions of VOCs, the following measures were taken during design stage:
Provision of Close – Blow down (CBD) system for all the process units to
minimize VOC emission from the operations.
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Minimum number of flanges, valves etc;
High grade gasket materials for packings;
Usage of state-of-the-art low leakage valves;
Usage of pumps with (single/double) mechanical seals;
Provision of floating roof storage tanks for volatile products storage;
Provision of better sealing arrangement for floating roof in such storage
tanks;
Implementation of VOC treatment unit in the ETP; and
Provision of seals in the manholes.
b) Water Pollution Management System
Numaligarh Refinery Limited is having an Effluent Treatment Plant (ETP) with capacity of 202 m3/hr for the treatment of industrial effluent generated. Detailed write-up on existing ETP is attached as Annexure-XIII. A new Effluent Treatment Plant (ETP) with capacity of 300 m3/hr will be envisaged for 6.0 MMTPA refinery expansion. Treated effluent from ETP will be routed to new RO-DM plant for recyle & recovery of water. Approx. 300 m3/hr reject from RO will be disposed in Dhansiri River with a TDS ~ 4000 – 6000 ppm. The treated effluent is being reused entirely for internal use like fire water make up, Cooling Tower make up and green belt development. Effluent Treatment and Maintaining discharge standard: A comprehensive wastewater management system will be made available in the refinery to treat the liquid effluent to meet the discharge standards stipulated by the MoEFCC. The wastewater management system in the refinery consists of the following:
Process wastewater treatment
Floor wash and contaminated Rain water treatment
Spent caustic Treatment
Tertiary Treatment Plant
Sanitary Effluent Treatment Plant The oily effluent streams from process units and tank farm area will be treated in the proposed Process wastewater Treatment Plant. Floor wash and contaminated rainwater will be received through a separate pipeline/channel and will be treated in the separate chain. Different types of Spent Caustic will be collected and treated separately in the refinery. A separate sanitary wastewater treatment plant consisting of Package unit will also be installed and the treated water will be used for gardening purpose and sludge will be used as manure.
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Liquid Effluent Summary The liquid effluents are summarized below in the Table 2.11.
Table 2.11 Quality of Liquid Effluents Coming to the ETP
(1) During normal operation, sour water shall be generated from hydro processing& non-hydroprocessing units for which SWS I & SWS-II of approximate capacities of 175 m3/hr & 90 m3/hr is provided. A part of stripped sour water will be reused while a portion will be sent to ETP for treatment before further reuse through DM plant.
(2) Spent caustic generated from various process units shall be collected through the separate pipelines and treated within integrated effluent treatment Plant.
(3) Sufficient storage shall be provided for sour water at the SWS area, so that during
startup and shutdown sour effluent can be diverted to these storage tanks instead of diverting to integrated effluent treatment plant.
(4) Most of the stripped water from non-hydro processed Sour Water Stripper will be
reused as Desalter water make-up water and the stripped water from hydro processed Sour Water Stripper will be reused in hydro processing units. This in-plant control measure will reduce the net wastewater load to the ETP considerably.
(5) Closed blow down system will be incorporated for hydrocarbon liquid discharges in
all the process units, which will reduce the wastewater load to ETP both in terms of quantum load and quality. This is another of the in-plant control measures.
(6) Appropriate segregation and collection philosophy (separate sewers for
process waste, contaminated rainwater, spent caustic, cooling tower blow down,
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boiler blow down, catalyst regeneration waste, etc. will be incorporated for various effluents depending on individual stream characteristics.
(7) Process area will be paved to avoid contamination of soil/sub-soil/ground water in
case of accidental spill/leakage of hydrocarbon liquids.
The various process streams shall be brought to WWTP battery limits separately. Table 2.12 gives the information about the flow rates of various effluents coming into the ETP battery limits.
Table 2.12 Estimated Flow rates of various effluents coming into the ETP battery limits
S. No. Stream Type Estimated Flow Rate (m3/h)
1 Oily Stream From Process & Other effluents
90 (Max. Intermittent)
2 Spent Caustic 5-7.5
3 Stripped Sour Water 100
4 De-salter Water (Brine) 70
5 Sanitary Waste 45
Notes: Data considered are preliminarily estimations based on In-House data and
will be confirmed during detail design.
Oily Effluent Streams Oily effluent streams from various parts of the refinery are to be collected & routed to the proposed process wastewater treatment plant/ETP. Following will be the design conditions for Oily Effluent Streams:
However, Oil handling units will be designed for maximum oil of 10000 ppm, wherein, Free and emulsified portion will be considered at 80% and 20% of total oil, respectively.
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Spent Caustic Streams Various spent caustic streams from refinery units shall be routed to the proposed WWTP, wherein it is stored within WWTP battery limit before feeding at controlled rate for the treatment of its high sulfide concentration & other contaminants. Following shall be the design conditions for spent caustic: Estimated Design Flow: 5 m3/hr (normal), 7.5 m3/hr (maximum). The quality of the spent caustic effluent is given below: Table 2.14 Quality of Spent Caustic Stream
Parameter Concentration (mg/l)
pH 12-13
Oil & Grease 1200
Total Suspended Solids 100
BOD 5200
COD 15000
Total Sulfides (as S) 10500
Phenols 700
Ammonical Nitrogen 25
Cyanides 15
Total Dissolved Solids 125000
Boiler Blow Down Boiler blow down will be collected at the WWTP/ETP Battery Limit and will be considered under combined flow to be adopted for Reuse and recycle option. Cooling Tower Blow down This stream will also be collected at the WWTP/ETP Battery Limit and will be considered under combined flow to be adopted for Reuse and recycle option Sanitary Effluent Sanitary waste from the refinery complex will be routed to a sanitary effluent treatment package unit. The package unit will consist of physical removal of suspended solids and biological treatment for the removal of BOD and COD. This step will be complemented by filtration and adsorption followed by chlorine disinfections before discharging to green belt. 40 m3/hr (Peak / Design) / 15 m3/hr (Avg.) is the estimated design conditions for sanitary effluent streams. Following table gives the quality of the sanitary effluent.
Table 2.15 Quality of the Sanitary Effluent
Parameter Concentration (mg/l)
BOD 200
COD 400
TSS 200
Sanitary effluent will be treated to meet total suspended solids < 100 mg/l and BOD3,27
< 100 mg/l
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ETP Treated Effluent Characteristics: Treated effluent from proposed new WWTP/ETP shall meet the quantitative and qualitative limits of parameters stipulated by MoEFCC for Refineries as given below:
Table 2.16 Quality of Treated Effluent Stipulated by MoEFCC
S. No.
Parameter
Limiting value for
concentration (mg/l,
except for pH)
Limiting value for quantum (kg/1000 T of
crude processed,
except for pH)
Averaging
Period
Parameters to be monitored daily: grab samples for each shift with 8-hours’ interval
1 pH 6.0–8.5 - Grab
2 Oil & Grease 5 2 Grab
Parameters to be monitored daily: composite sample (with 8-hours ’interval) for 24-hours flow weighted average
3 BOD3,27 15 6 24-hours
4 COD 125 50 24-hours
5 SS 20 8 24-hours
6 Phenols 0.35 0.14 24-hours
7 Sulphides 0.5 0.2 24-hours
8 CN 0.2 0.08 24-hours
Parameters to monitored once in a month: composite sample (with 8-hours’ interval)
9
Ammonia as N
15
6
24-hours
10 TKN 40 16 24-hours
11 P 3 1.2 24-hours
12 Cr (VI) 0.1 0.04 24-hours
13 Total Cr 2.0 0.8 24-hours
14 Pb 0.1 0.04 24-hours
15 Hg 0.01 0.004 24-hours
16 Zn 5.0 2 24-hours
17 Ni 1.0 0.4 24-hours
18 Cu 1.0 0.4 24-hours
19 V 0.2 0.8 24-hours
Parameters to monitored once in a month: grab samples for each shift with 8-hours’
20 Benzene 0.1 0.04 Grab
21 Benzo (a)
Pyrene
0.2
0.08
Grab
ETP treated effluent shall be treated in a RO based recycle plant. The recycled effluent shall used as DM water and Cooling tower make up.
c) Noise Pollution Management System
The overall noise levels in and around the plant area have been kept well within the corresponding allowable limits by providing noise control measures including acoustic hoods, silencers, enclosures etc. on all sources of noise generation.
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The ambient noise levels conform to the standards prescribed under Environmental (Protection) Act, 1986 Rules, and 1989 viz. 75 dBA (day time) and 70 dBA (night time). Based on the segregation of noise generating sources there shall be two major categories i.e. Category A for in-plot areas and Category B for off-plot areas. Category A shall be further subdivided as per occupational pattern. The permissible noise levels for 8 hours exposure for Category A shall be as per Table 2.17.
Table 2.17 Noise Level Measurement for Category A
d) Land Pollution Management System:
For the protection of the land environment, NRL will adopt environmentally sound solid waste management practices based on the philosophy of minimization of generation of solid waste and safe disposal of residual waste.
Bio-remediation of Oily Sludge: Bio remediation process is an in situ biological method to reduce the Total Petroleum Hydrocarbon (TPH) level in the oily sludge to make it suitable for non-hazardous land fill site. Biodegradation is only proven process which is totally harmless for environment. It employs naturally occurring micro-organisms to transform harmful constituents of oily sludge to non-toxic compounds. The oily sludge generated from the effluent treatment plant will be treated in the oily sludge centrifuge provided in the ETP. The cake generated from the centrifuge will be further sent for bioremediation. There are innumerable strains of microbes which degrade oily sludge through digestion of harm full chemicals and compounds present in that oily sludge into simpler, less toxic or non-toxic compounds. Many species of micro-organisms use petroleum hydrocarbons as food/ energy source, transforming them into harmless compounds consisting mainly of carbon dioxide, water and fatty acids.
Better Handling of Bio-sludge: With the provision of Sequential batch reactor and membrane bio reactor in ETP, BOD removal efficiency has been high which has resulted in lesser amount of bio-sludge generation. Centrifuge; dewater the bio sludge generated from biological process after the sludge thickener. This has resulted in considerable reduction in volume of sludge generated. The cake generated from the centrifuge is further used as bio manure in the green belt area of the refinery.
Category Class Type of areas Noise level dB(A)
A1 Operational General work area
Pump, compressors, turbine
85
Workshop, fabrication shop etc.
70
Inside battery unit roads 80
Restricted area
High capacity pumps, compressors
90
Abnormal condition
During emergency and plant shutdown
110
A2 Loading/ Unloading
60
A3 Silent Office, medical centre
50
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Oil Recovery from Mechanized Skid Process: In order to enhance and expedite oil recovery from oily sludge, latest technology like centrifuge has been employed for maximum recovery of oil from oily sludge and generation of minimum quantity of residual oily sludge.
Tank Bottom Sludge: This sludge is generated periodically during the tank cleaning operations approx 1000 T/ tank. This sludge is generated periodically during the tank cleaning operations. As this sludge is hazardous, after recovery of oil to the maximum extent possible, the residue is disposed through bioremediation/selling to approved recycler. General solid wastes: Small quantity of non-hazardous, non-recyclable solid waste consisting of waste refractory, spent insulation, used filter cartridges, spent charcoal, spent clay and sand will be generated. These wastes (approx 1500T/ year) will be disposed off in landfill. Most of the solid wastes like packaging and scrap materials have commercial value and will be disposed off by sale. ETP Sludge: ETP sludge generation will be 25 Tonnes/day and shall be disposed as per CPCB guidelines. Oily Sludge Handling Facilities: Following facilities will be given for handling of oily sludge: In-situ treatment: The oily sludge generated from the effluent treatment plant will be sent for bioremediation or disposed off to secured landfill site. Disposal Facility: Bioremediation site having proper leachate collection facility will be constructed for disposal of residual sludge after maximum oil recovery. Spent catalyst Handling: The generation of catalyst is listed below.
1 NHT HDT Catalyst 11200 2 Years Landfill or treatment
Sulphur Guard Bed 4096 6 Months Landfill
2 CCR
Spent Catalyst Fines from Dust Collector 6.3 Daily
Recycling for Metals Recovery
Spent Catalyst From Reactors 35280 5 years Metal recovery
Adsorbent From Net Gas Chloride Treaters 11865 6 months Landfill
Adsorbent From LPG Chloride Treater 840 4 months Landfill
3 ISOM
Methanator Reactor Catalyst 4903 3 years Metal recovery
Reactor Catalyst 91355 5 year Metal recovery
Sulfur Guard Bed Sorbent 5703 1-3 years
Metal recovery or landfill
Makeup Gas Treaters 2968 10 months Metal recovery or
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S.No. UNIT SOLID WASTE (Preliminary)
Quantity for NREP
(approx.) Kgs
FREQUENCY (approx)
DISPOSAL METHODS
Sorbent landfill
Makeup Gas Drier Adsorbent 3690 3 years Landfill
Feed Drier Adsorbent 17187 3 years Landfill
4 DHDT Spent Catalyst from Reactors 606880 3 years
Landfill or treatment
5 FCC GDS
Spent Catalyst from HDS Reactors 35.16 (m3) 4 Years
Landfill or treatment
Spent Catalyst from SHU Reactors 25.98 (m3) 4 Years
Landfill or treatment
6 PFCC Spent Catalyst 4182 Daily Landfill
7 RUF LC Max spent catalyst 10791 Daily
To supplier for reprocessing
VGO HDT Catalyst 184805 3 years Landfill or treatment
8 SRU Carbon 200 3 years Landfill
9 HGU
Spent Catalyst from Pre-Reformer 6635 1 year
The spent catalysts are non-toxic and can be disposed (once per their operating life) as land dump or via the agencies who deal in spent catalysts handling.
Spent Catalyst from Reformer 14300 3 years
Spent Catalyst from Shift reactor
31480 4 years
These catalysts have a life of about 4/5 years after which they are either returned to the manufacturers or sold to approve reprocessors. Spent Catalysts are stored in sealed drums with tags. The sealed drums are placed in a specified area under shed and the area will be barricaded. 2.2.9 PROJECT LOCATION FOR PROPOSED EXPANSION The site for new facilities for Refinery Expansion is located within the premises of the existing Refinery complex of M/s NRL. On 5th July 1996 MoEF has issued notification and declared "No Development Zone" within a radius of 15 km around the refinery site except towards North West where the "No Development Zone" shall extend right up to the eastern boundary of the Kaziranga National Park and directed that prior approval of the Central Government should be obtained before establishment of any activities which could lead to pollution and congestion. Plot Plan Studies
Plot plan of the existing refinery is updated to accommodate the additional 6 MMTPA refinery train considering location of all new facilities within the existing plot of the refinery.
Cement go down shown in the existing plot plan will be dismantled and used for other purpose, if required.
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The new flare system will be located close to the existing refinery flare.
Accommodation of additional raw water storage under the flare area will be studied.
Three crude tanks of 40,000 KL capacity each will be installed for the new train in the refinery plot.
Existing secured land fill space will not be utilized for locating any new facility.
Coke yards for the existing and new DCUs will be segregated. New DCU coke yard storage capacity will be for around 21 days of production.
LPG bullets of new refinery train will be sized to cater to existing refinery requirements also. Accordingly, existing LPG spheres will be dismantled / decommissioned.
Post office, bank and admin building will be relocated close to the marketing terminal admin building.
Control room, including requirement of existing will be located near existing MCR area.
Covered coke yard will not be provided. Raw water reservoir will be covered. Based on the plot plan evaluation, the following existing facilities will be dismantled or relocated for putting up some of the new facilities. Table 2.19 gives the information about the facilities to be dismantled / relocated for proposed facilities.
Table 2.19 Facilities to be dismantled/relocated for proposed facilities
The Overall plot plan for the proposed Refinery capacity expansion project is attached as
Annexure-VII.
S. No. Existing Facilities New Facilities
1. Raw water reservoir and PH Proposed Sulphur block
2. Fire water reservoir and PH
3. NRL HSD Consumer pump Proposed DM & CPU location
9. Bioremediation Unit Proposed CA/IG plant location
10. Sludge Pit
11. Bank & Post office Proposed Cooling Tower location
12. Exchange building storage yard
13. Craft training center
14. Microwave Tower
15. LPG Sphere Proposed DCU location
16. LPG Bullets
17. LPG Truck loading
18. Fire training ground Flare
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CHAPTER - 3
DESCRIPTION OF THE ENVIRONMENT
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3.0 DESCRIPTION OF THE ENVIRONMENT
INTRODUCTION The baseline data forms the basis for predicting/assessing the environmental impacts of the proposed project. The data has been collected around refinery site during the period of March, 2019 to May, 2019 by M/s Vardan EnviroLab, Gurugram which is MoEFCC approved environmental laboratory. The baseline data for various environmental components related Ambient Air Quality, Water Quality, Noise Level, Traffic Density and Soil Quality were monitored and collected in an area of 10 km radius from the plant site. The baseline status of various environmental components collected is described in the following sections.
3.1 LAND USE & LAND COVER
3.1.1. Land use studies
Studies on land use aspects of the ecosystem play important role in identifying the involved sensitive issues, which would guide in taking appropriate actions for maintaining the ecological integrity in view of the proposed developments in the region. The whole land use land cover map along with other themetic maps were prepared by Remote Sensing Application Centre, a wing of ASTE council, Bigyan Bhawan, G S Road, Guwahati.
3.1.2. Objectives of the Land Use study
The main objectives of land use studies are:
Establishing the existing land use pattern in the study area;
Analyzing the impacts of the proposed NRL expansion on the land use pattern of the study area; and
Making recommendations for optimization of the future land use pattern in the study area in view of the proposed NRL expansion and its allied activities and their associated impacts.
The land use pattern in the study area has also been established through the interpretation of the Satellite Imagery.
3.1.3. Interpretation of satellite imagery
In addition to the establishment of land use pattern based on the review of secondary data, the land use pattern in study area and its buffer zones covered within a radius of 10 km from the proposed plant has been established through interpretation of satellite imageries and by means of preparation of land use/land cover map.
3.1.4. Methodology
The land use/land cover map has been prepared based on the National Land Use Classification System. IRS-P5 Geo-Coded Linear Imaging Self Scanner (LISS) III False Colour Composite (FCC) imagery on 1:50000 scale has been used for mapping and interpretation. Besides the satellite imagery, other collateral data such as available maps, charts, Survey of India (SOI) topographical sheets have been used. In the post-interpretation stage extensive ground truthing has been conducted for verification of the interpreted features and for the fine-tuning of the interpreted features.
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The methodology adopted for preparation of land use/land cover thematic map is based on the visual interpretation of geo-coded scenes of IRS-P5 LISS III satellite data and the ground truthing in the study area. The final output of the study is the land use/land cover map. Different color codes for each category as shown in the map have been assigned. The land use land cover map surrounding 10 km radius from the refinery is given in Figure 3.1.
Figure - 3.1 Land use land cover map within 10 km radius of NRL
3.2 AIR ENVIRONMENT 3.2.1 Micrometeorological Data
To record the prevailing meteorological conditions at the site, a meteorological observatory was set up at a height 10m above the ground level at the NRL project site. Both primary and secondary data were collected for this project and compared to understand the micrometeorological conditions prevailing in the project area. This is described in the subsequent sections.
3.2.1.1 Primary Data (Data generated near NRL Refinery)
An automatic weather station was installed at a height of 10 m at NRL. Hourly observations were recorded for temperature, humidity, wind direction, wind speed, solar radiation and rainfall. The data collected are depicted in the form of ‘wind roses’ (Figure 3.2). From ENE followed by NE with an avg. speed of 2.80 m/s. The minimum and maximum temperature recorded during the study period was 11.9 °C and 36.5 °C respectively. (Refer Table-3.1).
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Table 3.1: Summarised Primary Meteorological Data
(Period: March, 2019 to May, 2019)
Month Avg.Wind
Speed (mps)
Temperature (0C) Relative Humidity (%) Total RF (mm) Min. Max. Avg. Min. Max. Avg.
March 2.77 11.9 27 19.6 26 99 61.97 45.18
April 2.8 12.5 33.3 22.69 24 99 56.13 69.2
May 2.53 18 36.5 26.12 28 100 59.75 135.99
3.2.1.2 Meteorological data generated in the field
Figure 3.2: Primary Data-Wind Rose
3.2.1.3 Secondary Data (IMD, Assam (Dibrugarh))
Secondary data collected from IMD, Assam (Dibrugarh station) provided the following details. The monthly mean maximum temperature was recorded 29.550C and the monthly mean minimum temperature was recorded 16.5oC. Maximum temperature was recorded in the month of August, July, whereas minimum in the month of January. The monthly mean maximum and minimum humidity levels were recorded 88% and 66 % respectively. Maximum humidity levels were recorded in the month of July, August and September and minimum humidity levels were recorded in the months of February and March. Maximum annual rainfall was 410.5 mm observed in the month of July (Refer Table 3.2).
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Table 3.2: Monthly Mean values of Meteorological Data
Month Temperature (0C) Relative Humidity (%) Rainfall
(mm) Max. Min. Avg. Min. Max.
January 26.8 6.2 16.5 74 81 27.8
February 28.8 8.9 18.85 68 77 63
March 31.6 12.4 22 66 73 117.5
April 33.1 15.7 24.4 71 76 232.9
May 35.1 18.5 26.8 73 79 307.2
June 36 22 29 78 85 408.5
July 35.8 22.9 29.35 80 88 525
August 36 23.1 29.55 78 86 410.5
September 35.3 21.9 28.6 82 85 351.5
October 33.9 17.1 25.5 77 83 127.1
November 31.1 11.5 21.3 72 81 21.5
December 27.5 7.3 17.4 77 78 16.4
Total 2609
Source: IMD, Assam (Dibrugarh)
Fig. 3.3 Month Wise Temperature (oC)
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Ambient Air Quality stations were selected based on the following considerations.
Meteorological conditions on synoptic scale.
Topography of the study area.
Representation of regional background levels.
Representation of plant site.
Representation of cross sectional distribution in the downward direction.
Influence of the existing sources if any, are to be kept at minimum.
Inclusion of major distinct villages to collect the baseline status.
The locations and list of monitoring locations selected for baseline data collection in study area are given in Figure. 3.5 and Table 3.3 respectively. The results of various parameters collected and analyzed at all the monitoring at 8 locations are given in Tables 3.6 to 3.12.
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Project Site
Fig.3.5: Map showing Air monitoring locations in study area of 10 km radius
Table 3.3: List of monitoring locations in study area
Code Location Name Distance (km) Direction
A1 Near NRL Bio-Refinary 0.30 E
A2 Near Telgram 1.81 SW
A3 Near Intake 1.60 NE
A4 Near Bishnupur 1.40 SW
A5 No.2 Rongbong (Near Pankha Gaon)
2.61 W
A6 Near Pura Bangla 5.00 SE
A7 Near Numaligarh Dhaba 7.77 SE
A8 Near Sankala Gaon 6.70 NE 3.2.3 AAQ status
PM10, PM2.5, SO2, NO2, CO, C6H6, NH3, O3, HC and VOC were selected parameters for the Baseline study. Parameters like PM10, PM2.5, SO2, NO2and NH3 were analyzed on 24 hourly basis, whereas CO and O3 on 8 hourly basis. Sampling was carried twice a week during 12 weeks study period. All the sampling sites are monitored at a height ranging from 3-5 m and free from any obstructions. The methodology used for analysis of various parameters is given below in Table 3.4:
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Table 3.4: Ambient Air Quality – Methodology
Pollutants Method of analysis
Du
st
PM10 Particulate Matter Gravimetric Method by using Repairable particulate matter sampler “Repairable Dust Sampler” (RDS).
PM2.5 Particulate Matter Cyclonic Method by using Fine particulate sampler.
Ga
se
s
NO2 Nitrous Oxide
Absorption in diluted NaOH and then estimated calorimetrically with sulphanilamide and N (I-Nepthyle) Ethylene diamineDihydrochloride and Hydrogen Peroxide (IS: 5182 1975, Part-VI).
SO2 Sulfur Dioxide
Absorption in Sodium Tetra Chloromercurate followed by Colorimetric estimation using P-Rosaniline hydrochloride and Formaldehyde (IS: 5182 Part – II, 2001).
CO Carbon monoxide GC method-IS 5182 (Part 10) :1999
C6H6 Benzene GC method-IS 5182 (Part 11) :2006
NH3 Ammonia Indo Phenol Blue Method-IS 11255 (Part 6)
*NAAQS –National Ambient Air Quality Standards, Schedule-VII, [Rule 3(3B)], [Part-II-sec (i)] 18.11.2009. **NS-Not Specified 3.2.4 Results and Discussions
Various statistical parameters like minimum, maximum, Average and 98th percentile concentrations have been computed from the data generated during sampling period at all the sampling stations (Refer Tables 3.6 to 3.12).
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PM10 (Particulate Matter) The 98th percentile concentrations of PM10 ranging from 65.86 to 95.16 µg/m3 (Table 3.6). Minimum concentration is recorded at Near Pura Bangla (55.6 µg/m3). Maximum concentration is found at Near Telgram (82.6 µg/m3).
Table 3.6: Ambient Air Quality Monitoring Results
Name of the pollutant: Particulate Matter (PM10) (µg/m3)
The 98th percentile concentration of PM2.5 ranges from 30.1 to 51.164 µg/m3 (Table 3.7). Minimum concentration is recorded at No.2 Rongbong (Near Pankha Gaon) (22.6 µg/m3). Maximum concentration is found at Near NumaligarhDhaba (51.5 µg/m3). The concentration of PM2.5is found to be fairly below the NAAQS limit of PM2.5 (60 µg/m324 hourly) at all locations.
Table 3.7: Ambient Air Quality Monitoring Results
Name of the pollutant: Particulate Matter (PM2.5) (µg/m3)
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Figure.3.6: Graphical Representation of PM10 & PM2.5
SO2 (Sulphur Dioxide) The 98th percentile concentration of SO2 ranges from 12.0 to 19.4 µg/m3(Table 3.8). Minimum concentration was recorded at Rongbong (7.3 µg/m3). Maximum concentration of 19.8 µg/m3 is found Near NumaligarhDhaba. All the maximum results monitored at 8 sampling stations were found to be below NAAQS. (80 µg/m324 hourly).
Table 3.8: Ambient Air Quality Monitoring Results
Name of the pollutant: Sulphur Dioxide (SO2) (µg/m3)
NO2 (Oxides of Nitrogen) The 98th percentile concentration of NO2 ranges from 20.1 to 33.3 µg/m3 (Table 3.9). Minimum concentration is recorded at Rongbong (14.1 µg/m3). Maximum concentration is found at Near Intake (33.4 µg/m3). The concentration of NO2 is found to be well within the NAAQS limits (80 µg/m324 hourly) at all monitoring locations.
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Table 3.9: Ambient Air Quality Monitoring Results
Name of the pollutant: Oxides of Nitrogen (NO2) (µg/m3)
CO (Carbon Monoxide) The 98th percentile concentration of CO ranges from 0.83 to 0.91 mg/m3 (Table 3.10). Minimum concentration is recorded near Intake (0.65 mg/m3). Maximum concentration is found at Near NumaligarhDhaba and Near SankalaGaon (0.92mg/m3). The concentration of CO is found to be well within the NAAQS limits (2 mg/m3 8 hourly).
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Table 3.10: Ambient Air Quality Monitoring Results
Name of the pollutant: Carbon Monoxide (CO) (mg/m3)
Hydrocarbons The HC value for all location is below detection limit. The HC values at other locations were found to be below detectable limit which is 0.05 µg/m3. Benzene
The value of C6H6 remains less than 0.1µg/m³ at all locations in the monitoring period. VOC The value of VOC is Below Detection Limit which is 0.5 µg/m3. NH3 (Ammonia) The 98th percentile concentration of NH3 ranges from 29.204 to 35.892 µg/m³. Minimum concentration was recorded Project Site Near Telgram with the concentration of 15.9
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µg/m³, whereas maximum concentration was recorded at NRL Bio-refinery with the concentrations of 37.5 µg/m3. (Table 3.11).
Table 3.11: Ambient Air Quality Monitoring Results
Ozone (O3) The 98th percentile concentration of Ozone ranges from 30.56 to 37.356 µg/m³. Minimum concentration was recorded Project Site at Near NRL BIO Refinary with the concentration of 16.9 µg/m³, whereas maximum concentration was recorded at Near Intake with the concentrations of 37.5 µg/m3. (Table 3.12).
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Table 3.12: Ambient Air Quality Monitoring Results
Figure.3.10: Graphical Representation of Ozone 3.3 NOISE ENVIRONMENT
Noise may be defined as “undesired type of sound which is composed of many frequency components of various loudness distributed over the audible frequency ranges”. Construction and plant operations, vehicular traffic, aircraft, population growth and urbanization etc., are the general objectionable noises in terms of health or annoyance. The concern about noise is directly related to its negative impacts upon human and animals viz., permanent or temporary hearing loss, speech interference and health impacts, harm to animals, effect on productivity of domestic animals, vibration of walls and windows etc., A determination is made of the micro scale impact by predicting anticipated noise levels for each alternative during both construction and operational phases. Predicted noise levels are compared with applicable standards or criteria in order to assess the impact.
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Various noise scales have been introduced to describe, a single number, the response of an average human to a complex sound made up of various frequencies at different loud levels. The most commonly and a lot preferred of these scales is a weighted decibel (dB(A)). This scale has been designed to weigh the various components of noise according to the response of the human ear. The impact of noise sources on surroundings community depends on: A characteristic of the noise sources includes instantaneous, intermittent and continuous ones. It is well known that a steady noise is not as annoying one that is continuously varying in loudness.The time of day at which noise occurs, for example loud noise levels at night in residential areas are not acceptable because of sleep disturbance. The location of the noise source, with respect to noise sensitive land use, which determines the loudness and period of noise exposure.
3.3.1 Impact Assessment of Noise Environment
Total 8 locations were identified in the study area for noise measurement keeping in view the various local activities such as residential, commercial, sensitive and industrial activities. 24 hourly noise measurements were study period from 06:00 AM to 06:00AM.
Project Site
Figure.3.11: Map showing Noise monitoring locations in study area of 10 km radius
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Table 3.13: List of Monitoring Locations in Study Area
Code Location Name Distance (km) Direction
N1 Near NRL Bio-refinery 0.30 E N2 Near Telgram 1.81 SW N3 Near Intake 1.6 NE N4 Near Bishnupur 1.4 SW N5 No.2 Rongbong
(Near Pankha Gaon) 2.61 W
N6 Near Pura Bangla 5.00 SE N7 Near Numaligarh Dhaba 7.77 SE N8 Near Sankala Gaon 6.70 NE
3.3.2 Methodology of Noise measurement
For Noise levels measured over a given period of time interval, it is possible to describe important features of noise using statistical quantities. This is calculated using the percent of the time as certain noise levels are exceeding the time interval. The notations for the statistical quantities of noise level are given below:
L10 is the noise level exceeded 10% of the time
L50 is the noise level exceeded 50% of the time and
L90 is the noise level exceeded 90% of the time
Equivalent sound pressure level (leq The leq is the equivalent continuous sound level, which is equivalent to the same sound energy as the actual fluctuating sound measured in the same period. This is necessary because sound from noise source often fluctuates widely during a given period of time. This is calculated from the following equation Leq=l50+ (l10–l90)
2/60 Lday is defined as the equivalent noise level measured over a period of time during day (6 am to 10 pm). Lnight is defined as the equivalent noise level measured over a period of time during night (10 pm to 6 am).A noise rating developed by environment protection agency, usepa for specification of community noise from all the sources is day-night sound level, (ldn). Hourly noise recorded data and lday values (16 hours) lnight (8 hours) and ldn (24 hours) are computed and tabulated. Day–night sound levels (ldn): The noise rating developed for community noise from all sources is the Day-Night Sound Level (Ldn). It is similar to a 24 hr equivalent sound level except that during night time period (10 pm to 6 am) A 10 dB (A) weighting penalty is added to the instantaneous sound level before computing the 24 hr average.This is time penalty is added to account for the fact that noise during night when people usually sleep is judged as more annoying than the same noise during the daytime. The Ldnfor a given location in a community may be calculated from the hourly Leq by the following equation. Ldn = 10 log {1/24 [16(10 Ld/10) + 8 (10 (Ln + 10)/10)]} Where Ld is the equivalent sound level during the day time (6 am to 10 pm) and Ln is the equivalent sound level during the night time (10 pm to 6 am).
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Table 3.14 Noise Limits
Area Code
Category of Area/Zone Limits in dB(A)Leq
Day Time Night Time
(A) Industrial Area 75 70
(B) Commercial Area 65 55
(C) Residential Area 55 45
(D) Silence Zone 50 40
3.3.3 Results and Discussions
Noise levels during night time (Lnight.) ranges from 39.10 to 44.80 dB (A).Noise levels during day time (Lday.) ranges from 48.76 to 54.8 dB (A).
Table 3.15: 24 Hourly Noise data (Day and Night timings in LeqdB (A))
Code Lday Lnight
N1 54.10 44.80
N2 53.49 42.54
N3 53.10 42.10
N4 51.48 43.13
N5 53.10 42.10
N6 48.76 39.10
N7 54.80 39.80
N8 50.10 40.30
Code Location Code Location
N1 Near NRL BIO Refinery N5 No.2 Rongbong (Near Pankha Gaon)
N2 Near Telgram N6 Near Pura Bangla
N3 Near Intake N7 Near Numaligarh Dhaba
N4 Near Bishnupur N8 Near Sankala Gaon
Traffic Density Report (NRL)
Hourly traffic measurements were made at 8 locations in study area twice in one month in 12 week study period. The number of each type of vehicles (passenger cars, LMV, HMV, etc) were recorded and the traffic density has been expressed in terms of Passenger Car Units (PCU) in the Table below. It has been observed that traffic volume is higher at Telgaram.
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Figure 3.12 : Map Showing Traffic Locations
Table 3.16: List of Monitoring Locations in Study Area
Equivalent Value of PCU: Heavy Motor Vehicles (HMV) – 1 HMV = 3 PCU Low Motor Vehicles (LMV) _ 1 LMV = 1 PCU Two wheelers (TW) - 1 TW = 1 PCU
Table 3.17: Traffic Data
(Twice in a Month during 3 Months Study Period)
Code
Average (PCU) / day March 2019 April 2019 May 2019
Water of high quality is essential to human life, and water of acceptable quality is essential for agricultural, industrial, domestic and commercial uses; in addition, most recreation is water based; therefore, major activities having potential effects on surface water are certain to be of appreciable concern to the consumers. Studies on Water Environment aspects of ecosystem is important for Environmental Impact Assessment to identify sensitive issues and take appropriate action by maintaining ‘ecological homeostasis’ in the early stages of development of the project. The objective of this report is to define the present environment in which the proposed action is to occur, to evaluate all possible eventualities, to ensure that all negative impacts are minimized, and to demonstrate that proposed project has been appropriately announced to all interested parties so that their concerns can be considered.
3.4.1 Sample collection and Methodology of analysis
The water resource in the study area may be classified into two major categories. viz. surface and groundwater sources. Water samples were collected at total 16 locations, out of which 8 samples from ground water sources and 8 samples from surface sources, for physico-chemical and biological studies. All the samples were analyzed for parameters such as hardness, alkalinity, salts, conductivity, inorganic substance, heavy metals, coliforms etc. Parameters like pH, conductivity, temperature and DO were analyzed at the time of collection in the field. These parameters were analyzed as per the procedures specified in ‘Standard Methods for Examination of Water and Wastewater’ published by American Public Health Association (APHA). Ground water samples results were compared with IS: 10500 specification and surface water samples results were compared with CPCB Water Quality Criteria, All the locations of water monitoring are shown in Fig. 3.13 and are detailed in Table 3.18.
Table 3.18: Water Sampling Locations in Study Area
Code Name of the location Ground / Surface
Ground Water
GW1 Near Project Site Ground
GW2 Bishnupur Ground
GW3 No. 2 Rong Bong Ground
GW4 NumaligarhDhaba Ground
GW5 Lattakanjang Ground
GW6 Near Telgram Ground
GW7 Near Sankala Gaon Ground
GW8 Near Pura Bangla Ground
Surface Water
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Code Name of the location Ground / Surface
SW1 Intake Point Surface
SW2 Surface water (Kalyani River) Surface
SW3 No. 2 Rong Bong Surface
SW4 Numaligarh Refinery Town Surface
SW5 Storm water NRL Surface
SW6 Near Numaligarh Dhaba Surface
SW7 Telegram Surface
SW8 Bishnupur Surface
Method of Water Sampling The following precautions were taken while sampling:
Washing the bottles/cans with distilled water prior to the sampling. Before collection of water the bottles/cans are again washed 2-3 times with the same
water. For surface water, Bottles were lowered to a minimum depth of 30 cm below water
surface. At each point Different sets of water samples were collected so as to cover all the
parameters. Meticulous attention is taken in proper numbering at the site. Sterilized bottles were used for the samples that are to be analyzed for bacteria. Civil supply water pipeline taps are sterilized before collection for bacteriological
analysis. Parameters like pH, conductivity and temperature were analyzed in the field
conditions. There are specific instruments for measuring EC and pH in the field. These are portable. These instruments will be calibrated at laboratory before use.
The results were reconfirmed after getting to the laboratory. DO is fixed and titrated in the field itself:
Appropriate preservatives are added, depending upon the elements to be analyzed and marked accordingly (IS-10500-2012, APHA).
All the water samples collected in the ice box, were immediately transported to the laboratory and free zed at <5oC analysis.
Field observations were noted in the field notebook.
The methods used for analysis of water samples are provided below in Table 3.19.
Table 3.19: Methods of Analysis of Water Samples
Parameters Detection
limit Instrument
Method Instruments Used IS Method
Physico-chemical
pH 1 pH meter pH electrode IS 3025 (part-11)
Electrical Conductivity
1µmhos/cm Field Method Laboratory method
Tracer Conductivity meter
IS 3025 (part-14)
Temperature 10C Tracer Thermometer APHA, page 25-26
Turbidity 1NTU Nephelometric method
Turbidity meter IS 3025 (part-10)
Total Suspended
0.1 mg/l Filtration & Evaporation
Balance IS 3025 (part-19)
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Parameters
Detection limit
Instrument Method
Instruments Used IS Method
Solids
Total Dissolved Solids
0.1 mg/l Evaporation method
Balance IS 3025 (part-16)
Total Alkalinity
1mg/l Titration Method Burettes IS 3025 (part-23)
Total Hardness
1mg/l EDTA Titrimetric method
Burettes IS 3025 (part-21)
Ca Hardness 1mg/l EDTA Titrimetric method
Burettes IS 3025 (part-21)
Mg Hardness 1mg/l EDTA Titrimetric method
Burettes IS 3025 (part-21)
Chlorides 0.5mg/l Argentometric method
Burettes IS 3025 (part-32)
Sulphates 1mg/l Nephelometric method
Turbidity meter IS 3025 (part-24)
Sodium 1mg/l Flame photometric method
Flame photometer IS 3025 (part-45)
Potassium 1mg/l Flame photometric method
Flame photometer IS 3025 (part-45)
Copper 0.02mg/l
Atomic Absorption Spectrophotometer method
Atomic Absorption Spectrophotometer
IS 3025 (part-42)
Manganese 0.02mg/l APHA, AAS
Nickel 0.05 IS 3025 (part-48)
Iron 0.05 APHA, AAS
Cadmium 0.01
Lead 0.05mg/l IS 3025 (part-47)
Zinc 0.01mg/l IS 3025 (part-49)
Chromium 0.1mg/l APHA
Total Phosphates
0.1 mg/l U.V.Spectrophotometric
Spectrophotometer IS 3025 (part-31)
Phosphorus 0.01 mg/l U.V.Spectrophotometric
Spectrophotometer IS 3025 (part-31)
Dissolved Oxygen
0.1mg/l Winkler's method Burettes IS 3025 (part-38)
COD 4 mgO2/l Open reflux method
COD digester APHA
BOD5, mg/l 1mgO2/l Dilution & DO by Winkler's
BOD bottles IS 3025 (part-44)
Bacteriological
Total Coliforms
3MPN/100ml MPN method Microscope APHA
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Figure.3.13: Map Showing Ground and Sub-Surface Water Sampling Locations
Table 3.20: List of Monitoring Locations in Study Area
Codes Locations Distance (km) Direction
GW1 Near Project Site 0.90 NE
GW2 Bishnupur 2.02 SW
GW3 No. 2 Rong Bong 2.49 SW
GW4 Numaligarh Dhaba 9.59 NW
GW5 Lattakanjang 1.72 NE
GW6 Near Telgram 0.62 SE
GW7 Near Sankala Gaon 3.70 NE
GW8 Near Pura Bangla 3.82 SE
SW1 Intake Point 2.03 NE
SW2 Surface water (Kalyani River) 3.19 NE
SW3 No. 2 Rong Bong 2.45 SW
SW4 Numaligarh Refinery Town 7.88 NE
SW5 Storm water NRL 2.66 NE
SW6 Near Numaligarh Dhaba 7.96 NE
SW7 Telegram 0.61 SE
SW8 Bishnupur 1.35 SE
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3.4.2 Results & Discussion 3.4.2.1 Ground water Quality
Total of 8 ground water samples were collected. pH values are ranging from 7.21 to 7.92, which was found to be well within the IS :10500 limits. Hardness values are ranging from 31.04 to 194 mg/l. Results are well within the permissible limits.Chlorides concentrations are ranging from 24.88 to 95.71 mg/l. It was observed that maximum all the locations of ground water is slightly saline in nature. Sulphates concentration was observed in the range of 0.29 to 34.16 mg/l. Maximum sulphate concentration was observed at Gram Panchayat Chowk (Bore Well), which is well within the desirable limits (200 mg/l). Total dissolved solids observed between 86 and 325.94 mg/l. Maximum TDS was observed at Village- Waveghar (Bore Well).TDS values for all the ground water samples were within the permissible limits (2000 mg/l).All the heavy metals concentrations were found to be well within 10500 limits.
Surface water Quality Eight surface water samples were collected; water samples are falls under the B category as per CPCB water quality criteria. Water quality criteria for surface water are given in Table 3.21 below:
Table 3.21: Water Quality Criteria for Surface Waters
Designated-Best-Use Class Criteria
Drinking Water Source without conventional treatment but after disinfection
A
Total Coliforms Organism MPN/100ml shall be 50 or less pH between 6.5 and 8.5 Dissolved Oxygen 6 mg/l or more Biochemical Oxygen Demand 5 days 20°C 2 mg/l or less
Outdoor bathing (Organized)
B
Total Coliforms Organism MPN/100ml shall be 500 or less pH between 6.5 and 8.5 Dissolved Oxygen 5 mg/l or more Biochemical Oxygen Demand 5 days 20°C 3 mg/l or less
Drinking water source after conventional treatment and disinfection
C
Total Coliforms Organism MPN/100ml shall be 5000 or less pH between 6 to 9 Dissolved Oxygen 4 mg/l or more Biochemical Oxygen Demand 5 days 20°C 3 mg/l or less
Propagation of Wild life and Fisheries
D pH between 6.5 to 8.5 Dissolved Oxygen 4 mg/l or more Free Ammonia (as N) 1.2 mg/l or less
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P
ara
mete
r Unit
Surface Water
SW1
SW2 SW3 SW4 SW5 SW6 SW7 SW8
Phenolic
Compou
nds
mg/l *BDL(**DL 0.001 mg/l)
*BDL(**DL 0.001 mg/l)
*BDL(**DL 0.001 mg/l)
*BDL(**DL 0.001 mg/l)
*BDL(**DL 0.001 mg/l)
*BDL(**DL 0.001 mg/l)
*BDL(**DL 0.001 mg/l)
*BDL(**DL 0.001 mg/l)
Mineral
Oil
mg/l *BDL(**DL 0.01mg/l)
*BDL(**DL 0.01mg/l)
*BDL(**DL 0.01mg/l)
*BDL(**DL 0.01mg/l)
*BDL(**DL 0.01mg/l)
*BDL(**DL 0.01mg/l)
*BDL(**DL 0.01mg/l)
*BDL(**DL 0.01mg/l)
Anionic
Detergen
ts as
MBAS
mg/l *BDL(**DL 0.02 mg/l)
*BDL(**DL 0.02 mg/l)
*BDL(**DL 0.02 mg/l)
*BDL(**DL 0.02 mg/l)
*BDL(**DL 0.02 mg/l)
*BDL(**DL 0.02 mg/l)
*BDL(**DL 0.02 mg/l)
*BDL(**DL 0.02 mg/l)
Zinc as
Zn
mg/l 0.58 0.80 0.80 0.49 0.44 0.78 0.48 0.59
Copper
as Cu
mg/l 0.22 0.20 0.20 0.10 0.18 0.17 0.16 0.21
Mangane
se as Mn
mg/l *BDL(**DL 0.10 mg/l)
*BDL(**DL 0.10 mg/l)
*BDL(**DL 0.10 mg/l)
*BDL(**DL 0.10 mg/l)
*BDL(**DL 0.10 mg/l)
*BDL(**DL 0.10 mg/l)
*BDL(**DL 0.10 mg/l)
*BDL(**DL 0.10 mg/l)
Cadmiu
m as Cd
mg/l *BDL(**DL 0.001 mg/l)
*BDL(**DL 0.001 mg/l)
*BDL(**DL 0.001 mg/l)
*BDL(**DL 0.001 mg/l)
*BDL(**DL 0.001 mg/l)
*BDL(**DL 0.001 mg/l)
*BDL(**DL 0.001 mg/l)
*BDL(**DL 0.001 mg/l)
Total
Coliform
MPN/100ml
500 900 500 110 110 310 125 315
#Fecal
Coliform
MPN/100ml
300 500 200 80 80 220 240 180
BDL: Below Detectable Limit
Codes Locations Codes Locations
SW1 Intake Point SW5 Strome water NRL
SW2 Surface water (Kalyani River) SW6 Near Numaligarh Dhaba
SW3 No. 2 Rong Bong SW7 Telegram
SW4 Numaligarh Refinery SW8 Bishnupur
3.5 LAND ENVIRONMENT
Studies on land and biological aspects of ecosystem is important for Environmental Impact Assessment to identify sensitive issues and take appropriate action by maintaining ‘ecological homeostasis’ in the early stages of development of the project. The objective of this report is to define the present environment in which the proposed action is to occur, to evaluate all the possible eventualities, to ensure that all negative impacts are minimized and
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to demonstrate that the proposed expansion project has been appropriately announce to all the interested parties so that their concerns can be considered. The present study was undertaken as a part of EIA report to understand the present status of ecosystem prevailing in the study area, to compare it with the past condition with the help of available data, to predict changes as a result of present activities and to suggest measures for maintaining the condition.
3.5.1 Methodology of Sample Collection and Analysis
Total 6 samples are collected from study area to understand the Physico-chemical and biological status of the existing soil in the region. This will establish the baseline characteristics of the region and shall facilitate in identifying the contamination (if any) due to the proposed expansion project. The step by step method of sampling (as per ISO 1038 on collection, handling and storage) is given below: Selection of site
A visual survey of the field is made in slope, texture, and cropping pattern.
The collection site is demarcated into uniform portions, each of which sampled separately.
Details of vegetation cover and of chemical and biological additions or accidental contamination are recorded.
Sampling is made during normal environmental conditions. Collection
Surface layer is scrapped to avoid surface vegetation, litter, visible roots and soil fauna.
The samples are designated according to the sampling area, unit and horizons.
A sample hole at a depth of 15cm is dug to collect 2kg of soil for physico-chemical analyses.
Transportation conditions
Soil is packed in a dark polythene bags for transportation to avoid changes in water content.
Sample processing
Samples are dried in hot air cabinet (at 800C).
After drying, soils are sieved through 2mm size sieve to remove pebbles, gravels, stones and plant debris.
Then the soil is crushed to fine particles for further analyses. Storage of samples
If further storage is required, then the samples are kept at dark at 40C ± 20C with free access of air or in a loosely tied plastic bag.
All the chemical parameters were analyzed as per ‘Soil analyses’ by Jackson, 1994 and ISO Standards Compendium ‘Environmental Soil Quality’.
A map showing all the soil sampling locations in study area is provided below in Figure. 3.14.
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Project Site
Figure 3.14: Map Showing Soil Sampling Locations in study area of 10 km radius
Table 3.24: List of Monitoring Locations in Study Area
Code Station Name Distance (km) Direction
S1 Near NRL BIO Refinary 0.30 E
S2 No.2 Rongbong (Near Pankha Gaon)
2.61 W
S3 Near Numaligarh Dhaba 7.77 SE S4 Near Sankala Gaon 6.70 NE
S5 Numaligarh Dhaba 6.85 SE S6 Sankala Gaon 6.1 NE
3.5.2 Soil Data analysis
Results of Soil samples analyzed for all the 6 sampling sites alongwith the general standards of soil classification is given Table 3.25 & 3.26.
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Table 3.26: Standards: Concentration of Soil
Parameter Units Concentration Level
Electrical conductivity
(mS/cm)
Up to 1.00 Average
1.00-2.00 Harmful to germination
2.01-3.00 Harmful to Crops
pH --
<4.5 Very low
4.5 – 6.0 Low (Acidic)
6.0 – 7.0 Moderate (Normal)
7.0 – 8.3 High (Weakly alkaline)
>8.3 Very High (Alkaline)
Nitrogen (N) (kg/ha)
<100 Low
>100-150 Good
>150-300 Better
Phosphorus (P2O5)
(kg/ha)
00-20 Low
>20-50 Medium
>50-80 High
Potassium (K2O) (kg/ha)
00-150 Low
151-300 Medium
>300 High
Organic Carbon (%)
<0.4 Low
0.4-0.5 Medium
0.51-0.8 Average
2 Preferred
Arsenic (mg/kg) <20 Preferred
Boron (mg/kg) 0.5-4 Preferred
Cadmium (mg/kg) <1 Preferred
Copper (mg/kg) 2.0-50 Preferred
Lead (mg/kg) <35 Preferred
Mercury (mg/kg) <1 Preferred
Selinium (mg/kg) >10 Preferred
Sulphur (mg/kg) 20 Preferred
Zinc (mg/kg) 1-200 Preferred
Ca:Mg ratio (meq/100g) 3 Preferred
Exchangeable Sodium Percentage
(%)
<6.0 Non – Sodic
6.0 – 10.0 Sodic
10.0 – 15.0 Moderate
15.0 – 25.0 Strong
>25.0 Very strong
3.6 BIOLOGICAL ENVIRONMENT
3.6.1 Objectives of Ecological Studies
The objective of the present study was undertaken with a view to understand the present ecosystem on the following lines:
To assess the distribution of vegetation in and around the proposed plant;
To assess the distribution of animal life in the proposed plant areas as well as surrounding areas;
To assess the biodiversity and to understand the resource potential; and
To understand the nature of pollution and the impact of pollution on the ecosystem.
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3.6.2 Methodology Adopted for the Survey
To achieve above objectives a detailed study of the area was undertaken in 10-km radius area with the proposed project site as its centre. The different methods adopted were as follows:
Compilation of secondary data with respect to the study area from published literature and Government agencies;
Generation of first hand data by undertaking systematic ecological studies in the area;
Interrogating local people so as to elicit information for local plants, animals and their uses.
The analysis of plant species are provided in Table 3.27.
Table 3.27 List of Plant Species
Sl. No.
Plant Name Family Habit Habitat Type
1 Abrus precatorius L. Fabaceae Straggler Terrestrial Wild
2 Abutilon indicum (L.) Sweet
Malvaceae Shrub Terrestrial Wild
3 Achasma loroglossum (Gagnep.) Larsen
Zingiberaceae Herb Terrestrial Wild
4 Acorus calamus L. Araceae Herb Terrestrial Wild
5 Ageratum conyzoides L.
Asteraceae Herb Terrestrial Wild
6 Achyranthes aspera L.
Amaranthaceae Herb Terrestrial Wild
7 Aegle marmelos (L.) Correa
Rutaceae Tree Terrestrial Wild
8 Alpinia allughos Roxb.
Rutaceae Herb Terrestrial Wild
9 Aloe vera (L.) Burm.f. Aloeaceae Herb Terrestrial Wild
10 Alstonia scholaris (L.) R.Br.
Apocynaceae Tree Terrestrial Cultivated
11 Alternanthera sessilis (L.) R.Br. ex DC.
Amaranthaceae Herb Aquatic Wild
12 Andrographis paniculata (Broom.f.) Wall ex Nees.
Acanthaceae Terrestrial Wild
13 Amaranthus spinosus L.
Amaranthaceae Herb Terrestrial Wild
14 Amaranthus viridis L. Amaranthaceae Herb Terrestrial Wild
15 Annanus comosus (L.) Merill.
Bromeliaceae Herb Terrestrial Wild
16 Aquilaria malacencis Lamk.
Thymeliaceae Herb Terrestrial Wild
17 Areca catechu L. Arecaceae Tree Terrestrial Cultivated
18 Annona squamosa L. Annonaceae Tree Terrestrial Cultivated
19 Argemone mexicana L.
Papaveraceae Herb Terrestrial Exotic
20 Averrhoa carambola L.
Oxalidaceae Shrub Terrestrial Cultivated
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Sl. No.
Plant Name Family Habit Habitat Type
21 Aristolochia bracteata Retz.
Aristolochiaceae Climber Terrestrial Wild
22 Asparagus racemosus Willd.
Asparagaceae Straggler Terrestrial Wild
23 Azadirachta indica A. Juss.
Meliaceae Tree Terrestrial Wild
24 Baccopa monnieri (L.) Pennell.
Scrophulariaceae Herb Terrestrial Wild
25 Baccuarea sapida Muell.
Euphorbiaceae Herb Terrestrial Wild
26 Bambusa arundinacea (Retz.) Willd.
Poaceae Grass Terrestrial Wild
27 Barringtonia acutangula Gaertn.
Barringtoniaceae Tree Terrestrial Wild
28 Bauhinia purpurea L. Fabaceae Tree Terrestrial Cultivated
29 Bauhinia racemosa Lam.
Fabaceae Tree Terrestrial Wild
30 Blepharis persica (Burm.) Kuntze
Acanthaceae Herb Terrestrial Wild
31 Boehmeria nevia Hook & Arn.
Urticaceae Herb Terrestrial Wild
32 Boerhavia diffusa L. Nyctaginaceae Herb Terrestrial Wild
33 Borreria hispida (L.) Schumann
Rubiaceae Herb Terrestrial Wild
34 Bombax ceiba L. Bombacaceae Tree Terrestrial Wild
35 Bougainvillea spectabilis Comm. ex. Juss.
Nyctaginaceae Straggler Terrestrial Ornamental
36 Bryophyllum calycinum Salisb.
Crassulacaceae Herb Terrestrial Cultivated
37 Butea monosperma (Lam.) Taub.
Fabaceae Tree Terrestrial Wild
38 Calotropis gigantea L. Asclepiadaceae Shrub Terrestrial Wild
39 Canarium strictum Roxb.
Bursariaceae Shrub Terrestrial Wild
40 Cannabis sativa L. Cannabinaceae Herb Terrestrial Wild
41 Carissa carandas L. Apocynaceae Climber Terrestrial Wild
42 Cardiospermum halicacabum L.
Sapindaceae Climber Terrestrial Wild
43 Carica papaya L. Caricaceae Tree Terrestrial Cultivated
44 Cassia fistula L. Fabaceae Tree Terrestrial Wild
45 Cassia alata L. Caesalpiniaceae Herb Terrestrial Wild
46 Cassia occidentalis L. Caesalpiniaceae Herb Terrestrial Wild
47 Celosia argentea L. Amaranthaceae Herb Terrestrial Wild
48 Cassia tora L. Caesalpiniaceae Herb Terrestrial Wild
172 Ocimum canum Sims. Lamiaceae Herb Terrestrial Wild
173 Oldenlandia umbellata L.
Rubiaceae Herb Terrestrial Wild
174 Opuntia stricta (Haw.) Haw.
Cactaceae Shrub Terrestrial Wild
175 Parthenium hysterophorus L.
Asteraceae Herb Terrestrial Exotic
176 Pavonia odorata Willd.
Malvaceae Herb Terrestrial Wild
177 Pavonia procumbens (Wall ex Wight & Arn.) Walp.
Malvaceae Herb Terrestrial Wild
178 Pavonia zeylanica (L.) Cav.
Malvaceae Herb Terrestrial Wild
179 Pedalium murex L. Pedaliaceae Herb Terrestrial Wild
180 Peltophorum pterocarpum (DC.)
Fabaceae Tree Terrestrial Planted
181 Pergularia daemia (Forrsk.) Chiov.
Asclepiadaceae Climber Terrestrial Wild
182 Peristrophe bicalyculata (Forssk.) Brummitt.
Acanthaceae Herb Terrestrial Wild
183 Phoenix sylvestris (L.) Roxb.
Arecaceae Tree Terrestrial Planted
184 Phyllanthus emblica L.
Euphorbiaceae Tree Terrestrial Planted
185 Phyllanthus maderaspatensis L.
Euphorbiaceae Herb Terrestrial Wild
186 Phyllanthus reticulatus Poir.
Euphorbiaceae Shrub Terrestrial Wild
187 Phyllanthus urinaria L.
Euphorbiaceae Herb Terrestrial Wild
188 Physalis minima Linn. Solanaceae Herb Terrestrial Wild
189 Pithecellobium dulce (Roxb.) Benth.
Fabaceae Tree Terrestrial Planted
190 Plumeria alba L. Apocynaceae Tree Terrestrial Ornamental
191 Plumeria rubra L. Apocynaceae Tree Terrestrial Ornamental
192 Polyalthia longifolia (Sonner.) Thw.
Annonaceae Tree Terrestrial Ornamental
193 Polycarpaea corymbosa (L.) Lam.
Caryophyllaceae Herb Terrestrial Wild
194 Pongamia pinnata (L.) Pierre
Fabaceae Tree Terrestrial Wild
195 Portulaca oleracea L. Portulacaceae Herb Terrestrial Wild
196 Portulaca quadrifida L.
Portulacaceae Herb Terrestrial Wild
197 Psidium guajava L. Myrtaceae Tree Terrestrial Planted
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Sl. No.
Plant Name Family Habit Habitat Type
198 Punica granatum L. Punicaceae Tree Terrestrial Cultivated
199 Pupalia lappacea (L.) Juss.
Amaranthaceae Herb Terrestrial Wild
200 Quisqualis indica L. Combretaceae Climber Terrestrial Ornamental
201 Salicornia brachiata Miq.
Chenopodiaceae Shrub Semi-aquatic Wild
202 Sapindus emarginatus Vahl.
Sapindaceae Tree Terrestrial Wild
203 Scoparia dulcis L. Scrophulariaceae Herb Semi-aquatic Wild
204 Sebastiania chamaelea (L.) Muell.-Arg.
Euphorbiaceae Herb Terrestrial Wild
205 Senna alata (L.) Roxb.
Fabaceae Shrub Terrestrial Ornamental
206 Senna auriculata (L.) Roxb.
Fabaceae Shrub Terrestrial Wild
207 Senna occidentalis (L.) Link
Fabaceae Herb Terrestrial Wild
208 Senna tora (L.) Roxb. Fabaceae Herb Terrestrial Wild
209 Sesbania sesban (Jacq.) W.Wight
Fabaceae Tree Terrestrial Planted
210 Sida acuta Burm.f. Malvaceae Herb Terrestrial Wild
211 Sida cordata (Burm. f.) Borss.
Malvaceae Herb Terrestrial Wild
212 Sida cordifolia L. Malvaceae Herb Terrestrial Wild
213 Sida rhombifolia L. var. rhombifolia
Malvaceae Herb Terrestrial Wild
214 Solanum surattense Burm. f.
Solanaceae Herb Terrestrial Wild
215 Sonchus oleraceus L. Asteraceae Herb Terrestrial Wild
216 Spermacoce hispida L.
Rubiaceae Herb Terrestrial Wild
217 Spermacoce ocymoides Burm.f.
Rubiaceae Herb Terrestrial Wild
218 Striga asiatica (L.) Kuntze
Scrophulariaceae Herb Terrestrial Wild
219 Strychnos nux-vomica L.
Strychnaceae Tree Terrestrial Wild
220 Syzygium cumini (L.) Skeels
Myrtaceae Tree Terrestrial Planted
221 Tamarindus indica L. Fabaceae Tree Terrestrial Planted
222 Tephrosia purpurea (L.) Pers.
Fabaceae Herb Terrestrial Wild
223 Tephrosia villosa (L.) Pers.
Fabaceae Herb Terrestrial Wild
224 Terminalia arjuna (Roxb.ex DC.) Wight & Arn.
Combretaceae Tree Terrestrial Wild
225 Terminalia catappa L. Myrtaceae Tree Terrestrial Ornamental
226 Thespesia populnea (L.) Soland ex Correa
Malvaceae Tree Terrestrial Wild
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Sl. No.
Plant Name Family Habit Habitat Type
227 Thevetia peruviana K.Schum
Apocynaceae Tree Terrestrial Wild
228 Tribulus terrestris L. Zygophyllaceae Herb Terrestrial Wild
229 Trichodesma indicum (L.) R. Br.
Boraginaceae Herb Terrestrial Wild
230 Tridax procumbens L. Asteraceae Herb Terrestrial Wild
231 Triumfetta rhomboidea Jacq.
Tiliaceae Herb Terrestrial Wild
232 Urena lobata L. subsp. lobata
Malvaceae Herb Terrestrial Wild
233 Vernonia cinerea (L.) Less.
Asteraceae Herb Terrestrial Wild
234 Vigna mungo (L.) Wilczek
Fabaceae Herb Terrestrial Cultivated
235 Vigna radiata (L.) Verdc.
Fabaceae Herb Terrestrial Cultivated
236 Waltheria indica L. Sterculiaceae Herb Terrestrial Wild
237 Xanthium indicum Koen.
Asteraceae Herb Terrestrial Wild
238 Ziziphus mauritiana Lam.
Rhamnaceae Tree Terrestrial Wild
239 Zornia gibbosa Span. Fabaceae Herb Terrestrial Wild
240 Glycine max (L.) Merr.
Fabaceae Herb Terrestrial Cultivated
The present report gives the review of published secondary data and the results of field sampling conducted during pre-monsoon season 2019. Photographs of different landforms surrounding the refinery are given in figures below:
Fig. 3.15 Agricultural field
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Fig. 3.16 Moist deciduous forest
Fig. 3.17 Pineapple cultivation in slope areas
Fig. 3.18 Orange cultivation in slope areas of hills 3.6.3 ANALYSIS OF FAUNAL DIVERSITY
Avifauna A total of 76 species of birds were observed during the present survey in the 10 km radial distance from the proposed project sites. The habitat types of the area include agricultural land, scrub jungle, dry & moist deciduous forests, seasonal ponds, river bank, and fallow land.
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The common terrestrial species of the area include Rose-ringed Parakeet (Psittacula krameri), Red-wattled Lapwing (Vanellus indicus), Indian Cuckoo (Cuculus micropterus), Common Myna (Acridotheres tristis) and Red vented Bulbul (Pycnonotus cafer). The list of avifauna is presented in the following Table 3.28. Blossom-headed Parakeet (Psittacula roseate - NT), Lesser adjutant (Leptoptilos javanicus - VU) and Oriental white ibis (Threskiornis melanocephalus- NT) as IUCN Threatened category found in the surrounding areas of the refinery.
Table 3.28 List of Birds in and Around the Study Area
S. No.
Common Name
Scientific Name Family Migratory
Status
IUCN/ IWPA status
1 Asian Koel Eudynamys scolopacea
Cuculidae R LC
2 Asian Openbill Stork
Anastomus oscitans Ciconiidae O LC
3 Barn Swallow Hirundo rustica Hirundinidae R LC
4 Baya Weaver Ploceus philippinus Ploceinae R LC
5 Black Drongo Dicrurus macrocercus Dicruridae R LC
6 Black-headed Oriole
Oriolus xanthornus Oriolidae R LC
7 Blossom-headed Parakeet
Psittacula roseata Psittaculidae R NT
8 Blue Rock Pigeon
Columba livia Columbidae R LC
9 Blue-tailed Bee-eater
Merops philippinus Meropidae R LC
10 Blue-throated Barbet
Megalaima asiatica Megalaimidae R LC
11 Bronzed Drongo
Dicrurus aeneus Dicruridae R LC
12 Cattle Egret Bubulcus ibis Ardeidae R LC
13 Chestnut-breasted Partridge
Arborophila mandellii Phasianidae R LC
14 Chestnut-winged cuckoo
Clamator coromandus Cuculidae R LC
15 Common Cuckoo
Cuculus canorus Cuculidae R LC
16 Common Iora Aegithina tiphia Aegithinidae R LC
17 Common Moorhen
Gallinula chloropus Rallidae R LC
18 Common Myna
Acridotheres tristis Sturnidae R LC
19 Common Sandpiper
Charadrius dubius Scolopacidae R LC
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S.
No. Common
Name Scientific Name Family
Migratory Status
IUCN/ IWPA status
20 Common Swallow
Hirundo rustica Hirundinidae R LC
21 Coppersmith Barbet
Megalaima haemacephala
Capitonidae R LC
22 Crested Kingfisher
Megaceryle lugubris Cerylidae R LC
23 Crested Serpent Eagle
Spilornis cheela Accipitridae R LC
24 Eurasian Collared Dove
Streptopelia decaocto Columbidae R LC
25 Eurasian Golden Oriole
Oriolus oriolus Oriolidae R LC
26 Green Bee-eater
Merops orientalis Meropidae R LC
27 Grey Heron Ardea cinerea Ardeidae R LC
28 Grey-headed Woodpecker
Picus canus Picidae R LC
29 Heart-spotted Woodpecker
Hemicircus canente Picidae R LC
30 Hill Myna Gracula religiosa Sturnidae R LC
31 Hill Partridge Arborophila torqueola Phasianidae R LC
32 House Crow Corvus splendens Corvidae R LC
33 House Sparrow
Passer domesticus Passeridae R LC
34 Indian Cuckoo
Cuculus micropterus Cuculidae R LC
35 Indian Grey Hornbill
Ocyceros birostris Bucerotidae R LC
36 Indian Pond-Heron
Ardeola grayii Ardeidae R LC
37 Indian Roller Coracias benghalensis Coraciidae R LC
38 Intermediate Egret
Mesophoyx intermedia Ardeidae R LC
39 Jungle Babbler
Turdoides striatus Muscicapidae R LC
40 Jungle myna Acridotheres fuscus Sturnidae R LC
41 Jungle Owlet Glaucidium radiatum Strigidae R LC
42 Large cuckooshrike
Coracina macei Campephagidae
R LC
43 Large Egret Casmerodius albus Ardeidae R LC
44 Lesser adjutant
Leptoptilos javanicus Ciconiidae R VU
45 Lesser Coucal
Centropus bengalensis
Cuculidae R LC
46 Little Brown Dove
Streptopelia senegalensis
Columbidae R LC
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S.
No. Common
Name Scientific Name Family
Migratory Status
IUCN/ IWPA status
47 Little Cormorant
Phalacrocorax niger Phalacrocoracidae
R LC
48 Little Egret Egretta Garzetta Ardeidae R LC
49 Little Grebe Tachybaptus ruficollis Podicipedidae WM LC
50 Maintain Bamboo Partridge
Bambusicola fytchii Phasianidae R LC
51 Mountain Scops Owl
Otus spilocephalus Strigidae R LC
52 Orange-bellied Leafbird
Chloropsis hardwickii Chloropseidae R LC
53 Oriental white ibis
Threskiornis melanocephalus
Threskiornithidae
R NT
54 Paddyfield Pipit
Anthus rufulus Motacillidae R LC
55 Pied kingfisher
Ceryle rudis Cerylidae R LC
56 Plum-headed Parakeet
Psittacula cyanocephala
Psittaculidae R LC
57 Purple Sunbird
Cinnyris asiaticus Nectariniidae R LC
58 Purple Swamphen
Porphyrio porphyrio Rallidae O LC
59 Red Collared Dove
Streptopelia tranquebarica
Columbidae R LC
60 Red Junglefowl
Gallus gallus Phasianidae R LC
61 Red-rumped Swallow
Hirundo daurica Hirundinidae R LC
62 Red-vented Bulbul
Pycnonotus cafer Pycnonotidae R LC
63 Red-wattled Lapwing
Vanellus indicus Charadriidae R LC
64 Rose-ringed Parakeet
Psittacula krameri Psittacidae R LC
65 Shikra Accipiter badius Accipitridae R LC
66 Silver-breasted broadbill
Serilophus lunatus Eurylaimidae R LC
67 Slaty-backed flycatcher
Ficedula hodgsonii Muscicapidae R LC
68 Small Blue Kingfisher
Alcedo atthis Alcedinidae R LC
69 Spotted Owlet Athene brama Strigidae R LC
70 Stork-billed Kingfisher
Pelargopsis capensis Halcyonidae R LC
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S.
No. Common
Name Scientific Name Family
Migratory Status
IUCN/ IWPA status
71 White-breasted Kingfisher
Halcyon smyrnensis Alcedinidae R LC
72 White-breasted Water hen
Amaurornis phoenicurus
Rallidae R LC
73 White-rumped Shama
Copsychus malabaricus
Muscicapidae R LC
74 White-throated Bulbul
Alophoixus flaveolus Pycnonotidae R LC
75 Wire-tailed Swallow
Hirundo smithii Hirundinidae R LC
76 Yellow-footed Green Pigeon
Treron phoenicoptera Columbidae R LC
The family wise distribution of birds is provided in Table 3.29:
Table 3.29 Family Wise Distribution of Birds
Family No. of Species
Ardeidae 6
Columbidae 5
Cuculidae 5
Hirundinidae 4
Phasianidae 4
Muscicapidae 3
Rallidae 3
Strigidae 3
Sturnidae 3
Accipitridae 2
Alcedinidae 2
Cerylidae 2
Ciconiidae 2
Dicruridae 2
Meropidae 2
Oriolidae 2
Picidae 2
Psittaculidae 2
Pycnonotidae 2
Aegithinidae 1
Bucerotidae 1
Campephagidae 1
Capitonidae 1
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Family No. of Species
Charadriidae 1
Chloropseidae 1
Coraciidae 1
Corvidae 1
Eurylaimidae 1
Halcyonidae 1
Megalaimidae 1
Motacillidae 1
Nectariniidae 1
Passeridae 1
Phalacrocoracidae 1
Ploceinae 1
Podicipedidae 1
Psittacidae 1
Scolopacidae 1
Threskiornithidae 1
Total 76
Detailed list of Mammal There are no major wild animals in the study area except elephant. 8 mammals were recorded in study area.
List of Mammals Reported to Occur in the Study Area
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RARE AND ENDANGERED FAUNA OF THE STUDY AREA: As per International Union for Conservation of Nature (IUCN) RED (2014) list: The IUCN Red List is the world's most comprehensive inventory of the global conservation status of plant and animal species. It uses a set of criteria to evaluate the extinction risk of thousands of species and subspecies. These criteria are relevant to all species and all regions of the world. With its strong scientific base, the IUCN Red List is recognized as the most authoritative guide to the status of biological diversity. Among the sighted fauna one bird, Lesser Adjutant Stork (Leptoptilos javanicus) is categorized as Vulnerable A2cd+3cd+4cd ver 3.1 in IUCN Red List 2016 version .3. Asian Elephant, Indian Elephant Indian Elephants (Elephas maximus) is categorized as Endangered A2c ver 3.1 by IUCN .But No Elephants were sighted in the study area during the survey period. The occurrences reported only because of secondary information provided by the villagers at Rangbong. They provided a video footage about this reported frequent visit by elephants in the nearby tea Garden. As per Indian Wild Life (Protection) Act, 1972 Wild Life (Protection) Act, 1972, as amended on 17th January 2003, is an Act to provide for the protection of wild animals, birds and plants and for matters connected therewith or ancillary or incidental thereto with a view to ensuring the ecological and environmental security of the country. Some of the sighted fauna and the fauna included as per relevant secondary information from the study area few, were given protection by the Indian Wild Life (Protection) Act, 1972 by including them in different schedules. Among the birds in the study area, many of them are included in schedule IV. Among the reptiles, Indian Cobra (Naja naja), and Common Rat Snake (Ptyas mucosus) were provided protection as per Schedule-II of Wild life protection act, (1972). Among mammals; Indian Elephant (Elephas maximus) is a schedule –I animal. Assamese Macaque (Macaca assamensis),and Rhesus Macaquae (Macaca mulatta) are provided protection in Schedule II,while Wild Boars (Sus scrofa Linnaeus) are provided protection by incorporating them in schedule–III, and Five stripped squirrels are included in schedule IV of Wild Life Protection act 1972.
3.7 SOCIO-ECONOMIC ENVIRONMENT
M/s Numaligarh refinery Limited is one of the major refineries of north east, established in 2001. It is a joint venture of Assam Government owned Numaligarh Refinery Limited with Bharat Petroleum Corporation Limited. NRL has been pursuing a focused programme towards environmental protection by adopting safe and eco-friendly technologies, sound design and engineering practices. The Company has a well defined Environment Management System (EMS) under ISO 14001, OSHAS 18001 and ISRS Protocols. The present project is the expansion of refining capacity from 3.0 to 9.0 MMTPA at Numaligarh.
3.7.1 Objective of the Study
The scope of the study was determined by Engineers India Limited. The objective of the socioeconomic survey is given below:
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Socioeconomic survey in EIA/EMP report preparation for expansion project is carried to predict the changes on social and economic status. Hence baseline data for demographic characteristics, education, health, amenities and sensitive locations existing in and around the project area have been studied in the study area.
As per the given scope, the following studies have been carried out for 10 km radius in and around the plant site.
Demographic profile (Population (SC, ST & Others), human settlements, male/female ratio, and literacy, occupational pattern (Total Workers, Marginal workers and Non workers). This data is obtained from the available recent census data, 2011.
Cultural and Aesthetic attributes.
3.7.2 Methodology 3.7.2.1 Secondary Data Sources
Secondary information was collected from Census Office, mainly includes the information related to population composition, occupational status, educational details of the study area.
3.7.3 Base Line Information of District
Numaligarh is a Village in Golaghat West Tehsil in Golaghat District of Assam State. Golaghat is the district headquarters. This place is in the border of the Golaghat District and Sivasagar District.
The Golaghat district has a population of 54, 32,176 as per 2011 census. Numaligarh is surrounded by Golaghat West Tehsil towards west, Golaghat North Tehsil towards North, Golaghat East Tehsil towards East. Golaghat, Jorhat, Itanagar, Mariani are the nearby Cities to Numaligarh. Assamese is the local language here.
3.7.3.1 Demographic Characteristics of the District
Demographic and socio-economic profile of the districts based on census data for the year 2011, Assam state is given below.
Table 3.30 Demographic Characteristics of the Districts
Description Golaghat Sivasagar
Total population 5432176 5865346
Total population (male ) 2765841 3004010
Total population (female) 2666335 2861336
Male% 50.9 51.2
Female % 49.1 48.8
(Source: Data as for Census 2011)
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Figure 3.19 Populations of Golaghat & Sivasagar Districts 3.7.3.2 Demographic Characteristics of the Study area (10km radius)
Village/town wise Population, Households, Occupation and Literacy status, have been collected based on Census, 2011 and given in the following manner
1. Total population 4. Illiteracy rate
2. Population (0-6 years) 5. Total worker persons (main + marginal)
3. Literacy rate 6. Total non workers
a. Population and households
A 'household' is usually a group of persons who normally live together and take their meals from a common kitchen unless the exigencies of work prevent any of them from doing so. Persons in a household may be related or unrelated or a mix of both. However, if a group of unrelated persons live in a census house but do not take their meals from the common kitchen, then they are not constituent of a common household. Each such person was to be treated as separate households. The important link is finding out whether it was a household or not was a common kitchen. There may be one member households, two member households or multi-member households. Population breakup within 10 km radius of the plant as per 2011 census is 168526 male and 164126 female which makes up a Total population about 332652, with 7.2 % of SC and 8.0 % of ST Population. The summarized population data is given in Table 3.31.
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Table 3.31 Population Composition
Names No. HH Population <7 age Population SC Population ST Population
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Figure 3.20 Population Composition
b. Occupational structure of the Study area (10km radius)
Work is defined as participation in any economically productive activity with or without compensation, wages or profit. Such participation may be physical and/or mental in nature. Work involves not only actual work but also includes effective supervision and direction of work. It even includes part time help or unpaid work on farm, family enterprise or in any other economic activity. All persons engaged in 'work' as defined above are workers. Persons who are engaged in cultivation or milk production even solely for domestic consumption are also treated as workers. Occupational structure is divided in to 3 categories viz., main workers, marginal workers and other workers. The criteria of dividing type of workers are as follows: Main workers: Those workers who had worked for the major part of the reference period (i.e. 6 months or more) are termed as Main Workers. There are 104515 total main workers in this area.
Marginal workers: Those workers who have not worked for the major point of the reference period (i.e. less than 6 months) are termed as marginal workers. The total marginal workers are 42678. The summarized occupation data is in Table 3.50. Non workers: All workers, i.e., those who have been engaged in some economic activity during the last one-year, but are not cultivators or agricultural laborers or in Household Industry, are 'Other Workers (OW)'. The type of workers that come under this category of 'OW' include all government servants, municipal employees, teachers, factory workers, plantation workers, those engaged in trade, commerce, business, transport banking, mining, construction, political or social work, priests, entertainment artists, etc. In effect, all those workers other than cultivators or agricultural laborers or household industry workers are other workers.
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Table 3.32 Occupational Structure
Names Workers Main workers Marginal workers Non workers
A person aged 7 years and above who can both read and write with understanding any language has been taken as literate. It is not necessary for a person to have received any formal education or passed any minimum educational standard for being treated as literate. People who were blind and could read in Braille are treated to be literates. A person, who can only read but cannot write, is treated as illiterate. All children of age 6 years or less, even if going to school and have picked up reading and writing, are treated as illiterates. The number and the percentage of literates within the study area is as mentioned in Table 3.33, which is 63.6 % for the total study area as the Total literate population is 211415 and illiterates is 121237 among the Total population 332652.
Table 3.33 Literacy Levels
Names Literates Illiterates
T M F T M F
Golaghat District
Barpathar (TC) 6165 3300 2865 1492 668 824
Garigaon 1389 749 640 545 222 323
Tamuli Pathar 379 198 181 148 73 75
Barua Gaon 821 429 392 158 62 96
Geleki 140 92 48 185 78 107
Dihingia 847 449 398 136 54 82
Kachugaon 1136 568 568 171 77 94
Thengal Gaon 1215 635 580 354 146 208
Barchapari Bagicha 2906 1658 1248 2887 1216 1671
Rajabari 1473 775 698 468 221 247
Sankala Gaon 812 419 393 265 98 167
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Names
Literates Illiterates
T M F T M F
Barua Gaon 821 429 392 158 62 96
Moriaholla 68 35 33 132 61 71
Garigaon 1389 749 640 545 222 323
Bongaon 1685 958 727 1659 674 985
Bholaguri Gaon 980 531 449 531 228 303
Garigaon 1389 749 640 545 222 323
Khumtai 54358 30362 23996 31477 13044 18433
Barua Gaon 821 429 392 158 62 96
Nagaon 312 161 151 76 30 46
Gerukani 299 173 126 106 49 57
Geleki 140 92 48 185 78 107
Sungi-Hula 209 119 90 159 76 83
Butolikhowa Tup 49 31 18 67 29 38
Morangi 69280 38921 30359 45571 19510 26061
Butolikhowa Tup 49 31 18 67 29 38
Hautoley Grant 1822 1057 765 1118 456 662
Habichowa Gaon 2497 1353 1144 759 349 410
Chachamukh 148 82 66 44 20 24
Kaiborta Gaon 3515 2043 1472 2812 1184 1628
Kenduguri Gaon 681 367 314 437 198 239
Kordoiguri Gaon 312 172 140 236 108 128
Miripathar 469 274 195 306 121 185
Padumoni 328 166 162 53 26 27
Pangkial Gaon 1297 659 638 286 125 161
Dhola Gaon 695 341 354 181 70 111
Sialmari 182 103 79 91 37 54
Telia Gaon 823 451 372 202 80 122
Dhola Gaon 695 341 354 181 70 111
Garanga Grant Gaon
879 546 333 799 308 491
Garanga Bagan 961 542 419 546 209 337
Garanga Jan Gaon 380 212 168 240 79 161
Letekujan Grant 1836 1100 736 2387 1006 1381
Dhekial Gaon 1681 835 846 401 162 239
Bagidhola Bagan 508 321 187 805 330 475
Naokata 734 405 329 370 176 194
Dholaguri Bagan. 913 543 370 1208 546 662
Prajabasti Gaon 236 133 103 202 85 117
Borchali Gaon 45 30 15 190 85 105
Bokial Gaon 691 395 296 220 90 130
Gubindapur Bagan 592 376 216 975 398 577
Rongagora 1688 968 720 1066 429 637
Samukjan 350 196 154 152 57 95
Garobasti 240 129 111 177 81 96
Ouguri Chapori 1010 549 461 554 231 323
Panka Gaon 762 404 358 277 135 142
Rangdhali Gaon 1537 821 716 404 168 236
Kamar Gaon 654 319 335 127 52 75
Numoligarh N.C. 167 101 66 151 63 88
Numaligarh bagicha 2686 1640 1046 2454 906 1548
Numaligarh Town 622 322 300 138 67 71
Numaligarh Pathar 59 35 24 57 24 33
Numaligarh Block 682 369 313 266 115 151
Numaligarh Refinery Township (CT)
1878 1014 864 440 212 228
Kalioni gaon 94 57 37 93 36 57
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Names
Literates Illiterates
T M F T M F
Behora 1953 1153 800 2101 837 1264
Mikirchang Bagicha 766 468 298 686 238 448
Kuruabahi Gaon 1249 692 557 539 222 317
Rowdawar Gaon 240 133 107 76 33 43
Dhodang Gaon 258 147 111 45 17 28
Parghat 633 386 247 970 457 513
Borpak 582 336 246 194 72 122
Nepali Bosti 170 104 66 94 36 58
Kamar Gaon 654 319 335 127 52 75
Basapathar 1410 776 634 610 254 356
Budhbari 1068 565 503 297 144 153
Na-Pamua 399 214 185 85 36 49
Sivasagar District
Halua Gaon 824 463 361 358 139 219
Garia Chiga Gaon 660 378 282 634 285 349
Poita Khat 312 177 135 510 242 268
Borguri Block 1011 611 400 568 228 340
Pachi Pathar 847 430 417 188 83 105
Merbill 1001 523 478 191 87 104
Jathipotia 1266 685 581 228 88 140
Bura Gohain 387 205 182 81 40 41
Molia Bheta 129 74 55 40 17 23
Pathalial 1263 644 619 262 116 146
Tairai Gaon 1060 579 481 379 163 216
Ramu Gaon 1375 692 683 215 102 113
Thanpathar 251 134 117 89 34 55
Rongswal Gaon 1345 738 607 369 155 214
Labang 185 94 91 24 15 9
Jorhat District
Boria Gaon 1325 700 625 187 74 113
Meteli Gaon 638 357 281 423 179 244
Sarkari N.C. 183 99 84 240 118 122
Turung Gaon 780 425 355 149 53 96
Khangia Gaon 2710 1363 1347 628 248 380
Total 211415 117477 93938 121237 51049 70188
*As per 2011 census
Fig. 3.22 Literacy levels
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3.6.4 Site Specific Studies
The following site specific features have been given with respect to emphasize and assess the socio economic impacts linked to economic, environmental and health.
3.6.4.1 Population Demographic Details
The population demography distribution details with in the vicinity (2011 census) from the project site area are mentioned in the Table 3.33 above.
3.6.4.2 Industries
The bulk of industries found here are based on Small-scale tea growers and the cottage industries, Food product industry, wood furniture & fixation industry, leather industry, nonmetallic mineral product, metal alloy industries. Numaligarh Refinery Limited (NRL) is the only major heavy industry in the district, engineered to process 3.0 million tonnes per year of indigenous crude oil, adopting innovated technologies.
3.6.4.3 Rivers
Dhansiri is the principal river, which originates from Laisang peak of Nagaland. It streams from south to north before joining the Brahmaputra. Doyang, Nambor, Doigrung and Kalioni are the four rivulets of the Dhansiri.
Dhansiri, Kaliyani, Doigrung are the rivers flowing through the study area. Dhansiri River is the main source of water supply for the refinery. Local people depend on the bore well water for their sustainable live hood.
3.6.4.4 Tourist Places
Numaligarh is a town in Golaghat district of Assam. The Deupahar temple and butterfly garden in Numaligarh are the prominent tourist places. The NH-37 passes through Numaligarh. It has a bus station. The nearest railway station is in Golaghat and the nearest airport is in Jorhat enables better communication for the visitors.World famous Kaziranga national park, situated at Golaghat on southern part of Bramhaputra river, is a remarkable place for the conservation of one horned Indian Rhinoceros and other wildlife of Noth-East India. Many migratory birds visit the park in the winter season.
Garampani is a hot water spring inside Nambar reserve forest, 18km south of Golaghat, on the way of Dimapur to Nagaland.Neghereting Shiv mandir built by Ahom kings, is a popular picnic spot at 1km from Golaghat town.
Deopahar is a scattered hill top of ancient temple with a status lying shattered and greenery sprouting from the heads of the others, is 5km from Numaligarh. A view from the top across Numaligarh tea estate and Karbi Anglong hills and forest is simply marvelous.
3.6.4.5 Health status
The study area has the facilities for health checkups for local people through the refinery people, primary health care centers in the villages.
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The district Health and disease management provides anti stress drugs, ORS, antibiotics, vitamins and mineral supplements, temporary shed through health camps for livestock. Vaccination, de-worming and insurance for animals.
NRL has been pursuing a focused programme towards environmental protection by adopting safe and eco-friendly technologies, sound design and engineering practices. The Company has a well defined Environment Management System (EMS) under ISO 14001, OSHAS 18001 and ISRS Protocols.
Other facilities such as provision of medical aid to accident victims, availability of ambulance, Vivekananda medical hospital at NRL township to provide medical support all the time.
3.6.5 Impacts of the proposed project
The socio-economic impacts are intrinsically linked with its economic, environmental and health impacts. These impacts relates to changes to the social structure and characteristics of a community.
3.6.5.1 Prediction of impacts
Negative impact Growth of industrialization generally has impacts on release of effluents, vehicular movement that will create negative impact for the people. However the proposed project has no loss of land. The effluents released are treated before their release into the outer environment. However management plan is made for minimizing the effects.
Positive impact Despite of little temporary and recoverable damage to ecosystem, there will be large number of positive impacts such as
1. Creation employment 2. Improvement in the infrastructural facilities (such as Roads, lightening etc) 3. Human Health (hospitals, medical camps, health checkups etc) 4. Educational facilities (College, schools etc)
5. Economical status in terms of Industrial growth and Employment generation and other
economically beneficial developments would show there beneficial impact on the Social communities residing in the nearby areas.
The project activities will improve the general environment in communication by roads, education and health facilities. Increase in industrialization in the area can increase the main workers sub-category of other workers. The project will thereby improve the economical status of the surrounding people.
Secondary impacts
During the developmental stage, benefits to the regional economy would be realized from increased expenditure for labor and materials. The economic profile of a community is characterized with respect to commercial and industrial development. These are temporary jobs provided by the project during the course of expansion. The proposed project focuses on the health status in terms of health checkups and medical camps and the increase in economical status of the people will indirectly improve the health status.
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4.0 IMPACT ASSESSMENT
In this chapter the likely impacts during construction and operation phases are identified. Further, the impacts are assessed and evaluated considering spatial, intensity, temporal and vulnerability scales. An overall assessment in terms of significance value is derived by integrating all scales. Detailed methodology is given in subsequent sections.
4.1 METHODOLOGY
The methodology adopted for assessing the potential positive and negative environmental impacts from the proposed project is described below. Step 1 : Identification of Environmental Impacts All potential releases (emissions to air, generation of noise, effluent discharge, etc.) from the construction & operation phases of the proposed project have been identified. The potential positive and negative environmental impacts from these releases and other activities of the project have been identified. Step 2 : Environmental Impact Assessment The Significance (S) of the Environmental Impacts is identified and assessed by the following characteristics:
Intensity (I) of the environmental impact;
Spatial extension (Sp) of the environmental impact;
Temporal duration (T) of the environmental impact;&
Environmental Vulnerability (V) of the impacted area. Determination of Impact Intensity (I): Impact Intensity has been assessed based on the following criteria: H (High):
Emissions/generation of highly pollutant substances, emissions/generation of high quantity of pollutant substances and/or high noise emission.
High consumption of resources (such as energy, water, land, fuel, chemicals)
Felling of large of trees or death of fauna M (Medium):
Emissions/generation of moderately pollutant substances, emissions/generation of moderate quantity of pollutant substances and/or moderately high noise emission.
Moderate consumption of resources (such as energy, water, land, fuel, chemicals).
Felling of few trees or physical damage of fauna.
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L (Low):
Emissions/generation of low pollutant substances, emissions/generation of low quantity of pollutant substances and/or low noise emission.
Low consumption of resources (such as energy, water, land, fuel, chemicals).
Damage to few trees or disturbance/ disorientation of fauna.
N (Negligible):
Emissions/generation of very low pollutant substances, emissions/generation of very low quantity of pollutant substances and/or very low noise emission
Very low consumption of resources (such as energy, water, land, fuel, chemicals)
No measurable damage to flora/fauna Determination of Impact Spatial extension (Sp) and Spatial Criteria (Is) : Impact Spatial extension has been assessed based on the following criteria:
H (High): the impact extends in a wide area outside the site (about 10 km or more)
M (Medium): the impact extends in a restricted area outside the site (< 10 km)
L (Low): the impact extends inside the site.
N (Negligible): the impact extends in a restricted area inside the site.
The product of Impact Intensity and Impact Spatial extension gives the impact evaluation as per Spatial criteria (Is).
Table 4.1 : Matrix for Evaluating Spatial criteria
Determination of Impact Temporal duration (T) and Temporal Criteria (It) Impact Temporal Duration has been assessed based on the following criteria:
H (Very High): the impact has an important long-term effect (> 5 years)
H (High): the impact has an important long-term effect (1-5 years)
M (Medium): the impact has a medium-term effect (1 week – 1 year)
L (Low): the impact has a temporary and short-term effect (1 day – 1 week)
HIGH MEDIUM LOW NEGLIGIBLE
HIGH H H H H
MEDIUM H M M M
LOW M L L L
NEGLIGIBLE N N N N
Impact Spatial extension (Sp)
Impa
ct In
tens
ity (I
)
Impact evaluation as per
SPATIAL CRITERIA (Is)
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N (Negligible): the impact has an immediate effect and it is solved in a very short time.
The product of Impact Temporal duration and spatial criteria gives the Impact Evaluations as per Temporal Criteria (It).
Table 4.2 : Matrix for Evaluating Temporal criteria
Determination of Environmental Vulnerability (V) and Significance (S) Environmental Vulnerability has been assessed based on the following criteria:
H (High): Particular interesting area from the environmental, historical, social point of view. Parks, natural reserves and / or special areas of conservation. Contaminated areas in which a further impact may generate non-compliance with local environmental limits.
M (Medium): Interesting area from the environmental, historical, social point of views. Residential areas with low population density. Agricultural areas, forests, public parks.
L (Low): Industrial and commercial areas. The product of Vulnerability and Temporal criteria gives the Significance of the impact.
Table 4.3: Matrix for Evaluating Significance
VERY HIGH HIGH MEDIUM LOW NEGLIGIBLE
HIGH H H H H H
MEDIUM H M M M L
LOW M M L L L
NEGLIGIBLE N N N N N
Impact evaluation as per
TEMPORAL CRITERIA (It)
Imp
act
Is
Impact Temporal duration (T)
HIGH MEDIUM LOW
HIGH H H M
MEDIUM H M M
LOW M M L
NEGLIGIBLE L N N
Impact evaluation as
per VULNERABILITY
CRITERIA
(SIGNIFICANCE S)
VULNERABILITY (V)
Imp
act
It
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The Impact Significance (S) levels obtained from the above-matrix are defined as follows:
H (High): Causes severe and acute effects to receptors, severe and irreversible deterioration of the quality of environment, and irreversible modification of landscape or of ecological equilibrium.
M (Medium): Causes moderate effects to receptors, reversible deterioration of the quality of environment, and reversible modifications of landscape or ecological equilibrium.
L (Low): Causes limited effects to receptors, quickly reversible deterioration of the quality of environment, and slight and reversible modification of landscape or ecological equilibrium.
N (Negligible): Causes negligible or no effects to receptors, slight and reversible deterioration of quality of the environment, no measurable changes at landscape or ecological level.
The assessment has been carried out for each of the potential environmental impacts during both construction and operation, and has been discussed in this chapter.
4.2 IDENTIFICATION OF ENVIRONMENTAL IMPACTS
The environmental impacts associated with the proposed project on various environmental components such as air, water, noise, soil, flora, fauna, land, socioeconomic, etc. has been identified using Impact Identification Matrix (Table 4.4).
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Table 4.4: Impact Identification Matrix
Activities
Physical Biological Socio-
economic
Am
bie
nt
air
qu
ality
Gro
un
d / s
urf
ace
wa
ter
(qu
an
tity
/
qu
ality
)
Am
bie
nt
no
ise
Lan
d (
lan
d u
se,
top
og
rap
hy
&
dra
ina
ge
, s
oil)
Flo
ra
Fau
na
Liv
elih
oo
d &
occ
up
ati
on
Infr
astr
uctu
re
CONSTRUCTION PHASE
Site preparation
* * * *
Civil works
* * * * *
*
Heavy equipment operations *
Disposal of construction wastes *
Generation/disposal of sewerage *
*
Transportation of materials
* *
OPERATION AND MAINTENANCE PHASE
Commissioning of Process units, utilities and offsites
* * *
* *
Storage of Products
*
Waste management- liquid and solid waste *
*
Transportation of products
* *
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4.3 AIR ENVIRONMENT 4.3.1 CONSTRUCTION PHASE
Construction activities are anticipated to take place over a period of at least 48 months. Potential emissions sources during construction phase include the following:
Site preparation and civil works
Storage and handling of construction material (e,g. sand, cement) at proposed project site.
Operation of temporary Diesel Generator (DG) sets
Movement of vehicles carrying equipment, construction material and project-related personnel
The impacts are described below:
Dust will be generated from earth-moving, grading and civil works, and movement of vehicles on unpaved roads.
PM, CO, NOx, & SO2 will be generated from operation of diesel sets and diesel engines of machineries and vehicles.
The significance of the impacts of air emissions on ambient air quality during construction phase is summarized in Table 4.5.
Table 4.5: Impact of Air Emissions (Construction Phase)
Factors of assessment
Value of assessment
Justification
Intensity Low Emissions of low quantity/Low consumption of power
Spatial Low Impact extends inside the site
Temporal Low The impact has a temporary and short term effect
Vulnerability Low Open area
Evaluation of factors
Impact(Is) Low By combining intensity and spatial factors as per methodology given in Section 4.1
Impact(It) Low By combining Is and temporal factors as per methodology given in Section 4.1
Overall Significance Value of Impact (S)
Low By combining It and Vulnerability factors as per methodology given in Section 4.1
Mitigation Measures
Ensuring preventive maintenance of vehicles and equipment.
Ensuring vehicles with valid Pollution under Control certificates are used.
Avoiding unnecessary engine operations.
Implementing dust control activities such as water sprinkling on unpaved sites.
Controlled vehicle speed on site
Ensuring vehicle are covered during transportation of material.
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4.3.2 OPERATION PHASE 4.3.2.1 EMISSIONS FROM COMBUSTION SOURCES
Air Pollution Modeling
The prediction of Ground Level Concentrations (GLC) of pollutants emitted from the stacks have been carried out using ISCST-3 Air Quality Simulation model released by United States Environmental Protection Agency (USEPA) which is also accepted by Indian statutory bodies. The impact has been predicted over a 20 km X 20 km area.
Meteorological data plays an important role in computation of Ground Level Concentration (GLC) using ISCST-3 model. Meteorological data of the project site is another input required for computation of the contribution by the proposed plant. The parameters required are:
• Wind speed and direction
• Stability
• Mixing height
• Temperature
The hourly wind speed, solar insolation and cloudiness during the day whereas in the night, wind speed and cloudiness parameters were used to determine the hourly atmospheric stability Class A to F (Pasquill and Gifford). Data related to wind velocity and direction were generated during the monitoring period. Part of this site specific monitored data have been used as input data of the model during computation.
The hourly occurrence of various stability classes at the project site is also an important input parameter to the model. Further site specific mixing depth (mixing height or convective stable boundary layer and inversion height or nocturnal stable boundary layer) is also an important input parameter for computation and assessment of realistic dispersion of pollutants. There are different methods for generating these parameters, but in the present case data published by CPCB in Spatial distribution of hourly mixing depth over Indian region have been used.
The above computation is considering the stack emissions only and does not take into account any changes in the fugitive emission. However, since the fugitive emissions are being released mainly from near ground sources, are not expected to travel / disperse to a longer distance to reach beyond the plant boundary and thus are not expected to have any impact on the ambient air.
Industrial Source Complex Short Term - 3 (ISCST3) Model The Industrial Source Complex – Short Term Version 3 (ISCST-3) models has been developed to simulate the effect of emissions from the point sources on air quality. The ISCST-3 model was adopted from the USEPA guidelines which are routinely used as a regulatory model to simulate plume dispersion and transport from and up to 100 point sources and 20000 receptors. ISCST–3 is extensively used for predicting the GLCs of conservative pollutants from point, area and volume sources.
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The impacts of conservative pollutants were predicted using this air quality model keeping in view the plain terrain at and around the project site. The micrometeorological data monitored at project site during study period have been used in this model.
The impact on air quality due to emissions from single source or group of sources is evaluated by use of mathematical models. When air pollutants are emitted into the atmosphere, they are immediately diffused into surrounding atmosphere, transported and diluted due to winds. The air quality models are designed to simulate these processes mathematically and to relate emissions of primary pollutants to the resulting downwind air. The inputs needed for model development are emission load and nature, meteorology and topographic features, to predict the GLCs.
The ISCST-3 model is, an hour-by-hour steady state Gaussian model which takes into account the following:
- Terrain adjustments
- Stack-tip downwash - Gradual plume rise - Buoyancy-induced dispersion - Complex terrain treatment and consideration of partial reflection - Plume reflection off elevated terrain - Building downwash - Partial penetration of elevated inversions - Hourly source emission rate, exit velocity, and stack gas temperature
The ISCST-3 model, thus, provides estimates of pollutant concentrations at various receptor locations. The ISC short term model for stacks uses the steady-state Gaussian plume equation for a continuous elevated source. For each source and each hour, the origin of the source's coordinate system is placed at the ground surface at the base of the stack. The x axis is positive in the downwind direction, the y axis is crosswind (normal) to the x axis and the z axis extends vertically. The fixed receptor locations are converted to each source's coordinate system for each hourly concentration calculation. The hourly concentrations calculated for each source at each receptor are summed to obtain the total concentration produced at each receptor by the combined source emissions. The source data i.e. continuous stack emissions from different process units have been calculated based on the design data of the respective process units.
The input data requirements for each source include data specific to the source and its type (whether point, area or volume source). The source-input requirements for running the program are the emission height, location, exit velocity, exit temperature and strength. The receptor data can be given either as polar, rectangular Cartesian or discrete ones. The program control includes options regarding pollutant type, dispersion options, averaging time, flag pole receptor and exponential decay etc.
For the proposed project, the configuration of some process units as well as stack emission has been amended. The stack emission details for NOX and SO2 post-NREP scenario has been presented in Table 4.6 as given below.
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Table 4.6: Stack Wise NOx and SO2 Emission of Proposed Units in NRL
HYDROGEN GENERATION UNIT (HGU) 3.1 60 150 14.2 0.128 61.36
UTILITY BOILER (UB-1) 3.0 35 130 20.0 0.58 70.83
UTILITY BOILER (UB-2) 3.0 35 130 20.0 0.58 70.83
Impacts on Ambient Air due to releases of SO2
For predicting SO2 values, stack emission details of the above table has been
considered for Air quality modeling.
The GLC isopleths generated in ISCST-3 AERMOD software for 24 hourly maximum
averages for SO2 is shown in Figure 4.1. The results are tabulated in Table 4.7.
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Table 4.7– Predicted values of GLC for SO2
SO2 (24 hourly maximum)
Maximum 24 hr GLC
µg/m3
Maximum GLC From NRL Main
Gate (0,0); Co-ordinates
(m)
Distance from the
plant boundary
(m)
Maximum 98 Percentile Baseline
Value (within 10 km radius)
µg/m3
Resultant 98 Percentile
Value
µg/m3
Emission scenario for proposed project
12.5 -2053, -1481
Outside the
Refinery Boundary
19.4 31.9
From the Table 4.7, SO2 value (maximum 24 hr Ground Level Concentration (GLC)) of proposed project scenario is predicted as 12.5 µg/m3. The maximum GLC for SO2 occurs outside the Plant boundary at co-ordinate (-2053, -1481). By superimposing the same with background SO2 level (i.e. 98 percentile maximum baseline collected value), the maximum resultant GLC observed is 31.9 µg/m3. In both the cases the SO2 value is well within the standard limit of 80 µg/m3 for 24 hourly average for industrial and residential areas.
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Figure 4.1: Predicted GLC for 24 hours Maximum Concentration Values of SO2 due to emission from the proposed project
Impacts due to releases of NO2
For predicting NO2 values, stack emission details of the above table has been considered for Air quality modeling. The GLC isopleths generated in ISCST-3 AERMOD software for 24 hourly maximum averages for NO2 is shown in Figure 4.2. The results are tabulated in Table 4.8.
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Table 4.8 – Predicted values of GLC for NO2
NOX (24 hourly maximum)
Maximum 24 hr GLC
µg/m3
Maximum GLC From NRL Main Gate
House (0,0) Co-ordinates
(m)
Distance from the
plant boundary
(m)
Maximum 98 Percentile Baseline
Value (within 10 km radius)
µg/m3
Resultant 98th
Percentile Value
µg/m3
Emission scenario for proposed project
37.6 -1187,-981
Outside the
Refinery Boundary
33.3 70.9
From the Table 4.8, NOx value (maximum 24 hr Ground Level Concentration (GLC)) of proposed project scenario is predicted as 37.6 µg/m3. The maximum GLC for NOx occurs outside the Plant boundary at co-ordinate (-1187,-981). By superimposing the same with background NOx level (i.e. 98 percentile maximum baseline collected value), the maximum resultant GLC observed is 70.9 µg/m3. In both the cases the NOx value is well within the standard limit of 80 µg/m3 for 24 hourly average for industrial and residential areas.
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Figure 4.2: Predicted GLC for 24 hours Maximum Concentration Values of NOx
due to the proposed project.
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4.3.1.3 Mitigation measures
During the design phase all efforts have been made to adopt latest state of art technology and to install adequate pollution control measures and for possible fugitive emission sources. The following mitigation measures will be employed during operation period to reduce the pollution level to acceptable limits:
To ensure that all the pollution control facilities envisaged at the design
stage have been implemented and are functioning properly.
Clean fuels LNG (H2S content: Nil) and treated refinery fuel gas will be fired in the furnaces.
Stack monitoring to ensure proper functioning of different pollution control facilities attached to major stacks. Existing On-line analyzers will be used for monitoring SO2 and NOX.
A flue gas scrubber will be provided to reduce the SOx and particulate emissions from flue gases to local emissions stipulations.
Combination of SCNR and SCR technologies along with low NOx burners will be used in CO incinerators to reduce NOx emissions.
Air monitoring in the Work-zone to ensure proper functioning of fugitive emission control facilities.
Vehicles and machineries would be regularly maintained so that emissions confirm to the applicable standards.
Monitoring of ambient air quality through online AAQ monitoring system at three locations to measure/monitor the pollution level.
Workers will be provided with adequate protective measures to protect them from inhaling dust.
Design of the plant system to meet the OISD requirements.
Provisions of the Safety Systems in the design with redundancy, and reliability are considered in depth.
Operation of the plant by qualified manpower.
Regular monitoring and review to ensure safe operation.
Regular monitoring by Environmental Cell to demonstrate the compliance with Statutory limits in the public domain.
Flare is envisaged for combustion of refinery off-gases.
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4.3.1.4 FUGITIVE EMISSIONS
The significance of the impacts of air emissions on ambient air quality during operation phase is summarized in Table 4.9.
Table 4.9: Impact of Air Emissions (Operation Phase)
Mitigation measures
Developing green belt in the proposed new premises.
Ensuring preventive maintenance of equipment.
Regular monitoring of air polluting concentrations.
Provision of Low NOx burners is envisaged in all furnaces. 4.4 WATER ENVIRONMENT
4.4.1 CONSTRUCTION PHASE
During construction phase, raw water will be required for the following purposes:
Civil works (such as cement preparation, curing).
Domestic use (such as washing, laundry etc.).
Water sprinkling on site for dust abatement.
Presently, raw water is sourced from Dhansiri River for existing refinery operation purposes. The drinking water and sanitation facilities available within the refinery will be extended to meet the additional work force required for expansion project. During the implementation of the project, the additional demand during the construction phase for sanitary and drinking purposes will be met from the existing sources. The existing drinking water header will be extended to the expansion site.
Factors of assessment
Value of assessment
Justification
Intensity Low Resultant baseline concentrations for SO2 & NOx are found well within prescribed National Ambient Air Quality Standards (NAAQS)
Spatial Low
Dispersion of these emissions leading to Ground level concentration (GLC) lies inside the site.
Temporal High
the impact has an important long-term effect (1-5 years)
Vulnerability Low Open area
Evaluation of factors
Impact(Is) Low By combining intensity and spatial factors as per methodology given in Section 4.1
Impact(It) Medium
By combining Is and temporal factors as per methodology given in Section 4.1
Overall Significance Value of Impact(S)
Medium
By combining It and Vulnerability factors as per methodology given in Section 4.1
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Impact on water quality during construction phase may be due to non-point discharges of solids from soil loss. However, the construction will be more related to mechanical fabrication, assembly and erection; hence the water requirements will be small. The overall impact on water environment during construction phase due to proposed expansion project will be short term, insignificant and reversible.
The significance of the impact of raw water consumption on local water resources during construction phase is summarized in Table 4.10.
Table 4.10: Impact of water Consumption (Construction Phase)
Factors of assessment
Value of assessment
Justification
Intensity Low Raw water requirement is met from already permitted quantity for refinery from river Dhansiri.
Spatial low The impact extends in a restricted area within the site
Temporal Medium The impact has a temporary and short term effect
Vulnerability Low Designated Industrial area
Evaluation of factors
Impact(Is) Low By combining intensity and spatial factors
Impact(It) Low By combining Is and temporal factors
Overall Significance Value of Impact(S)
Low By combining It and Vulnerability factors
The effluent streams that will be generated regularly during construction stage include the following:
Sewage and from floor washing from work sites.
Cleaning and washing of equipment.
Temporary sanitation facilities (soak pits/septic tanks) will be set up for disposal of sanitary sewage generated by the work force. Since, most of the construction work force is locals, the demand of water and sanitation facilities will be small and is considered manageable at the site itself.
The significance of the impact of waste water generation during construction phase is summarized in Table 4.11.
Table 4.11: Impact of Effluent Generation (Construction Phase)
Factors of Assessment Value of
assessment Justification
Intensity Low Releases of low quantity
Spatial Low Impact extends in a restricted area inside the site (< 1 km)
Temporal Low The impact has a temporary and short term effect (1 day – 1 week)
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Factors of Assessment Value of
assessment Justification
Vulnerability Low Open area
Evaluation of factors
Impact(Is) Low By combining intensity and spatial factors
Impact(It) Low By combining Is and temporal factors
Overall Significance Value of Impact(S)
Low By combining It and Vulnerability factors
Mitigation Measures
Monitoring water usage at work sites to prevent wastage.
Operation Phase
Impact Evaluation The impact on water environment during the operation phase of the proposed changes shall be in terms of water consumption and waste water generation due to process activities. Raw water shall be made available from the nearby River Dhansiri. Proposed raw water requirement is 2508 m3/hr (post-NREP). Total allocated raw water 2465 m3/hr by Irrigation Dept., Assam vide NOC letter no.: DDMI/TB-8/1728/2011/28; 02/05/2019. (Ref. letter is attached as Annexure-VI) and earlier approval of 1200 m3/hr of raw water letter is also attached with Annexure-VI. Based on the above, there will be minimal and reversible impact on water environment. The impact of water consumption on local resources during operation phase is summarized in Table 4.12.
Table 4.12: Impact of Water Consumption (Operation Phase)
Factors of assessment
Value of assessment
Justification
Intensity Low Sourced from Dhansiri River (within allocated quantity).
Spatial low The impact extends in a restricted area within the site
Temporal High the water required for project will be sourced from the Dhansiri river
Vulnerability Medium Designated Industrial area
Evaluation of factors
Impact(Is) Low By combining intensity and spatial factors
Impact(It) Low By combining Is and temporal factors
Overall Significance Value of Impact (S)
Medium By combining It and Vulnerability factors
There shall be approximately 300 m3/hr additional wastewater generations from the proposed expansion of units which will be disposed to Dhansiri River with TDS ~4000-6000ppm. The additional wastewater generated as a result of expansion is proposed to
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be treated in a separate effluent treatment plant to meet the requirements as prescribed by MoEFCC/CPCB.
Effluents from the refinery complex are analyzed on a periodical basis and report is submitted to PCB, Assam at regular intervals. A perusal of the data indicates that treated effluent from the existing plant meets all standards laid down by PCB, Assam. Hence, there shall be no impact on water environment. The effluent to be treated in the ETP can be broadly classified as:
Oily effluent streams,
Spent caustic effluent streams,
Sanitary effluent streams (treated in a sanitary effluent treatment plant),
CRW Streams.
Oily effluent streams from various parts of the refinery are to be collected in an effluent receiving sump & routed to the ETP for treatment. Design flow capacity for the oily effluent streams is 90 m3/hr. The collected effluent is routed to API and TPI followed by the DAF for oil removal. Sequential batch reactor (SBR) and Membrane bio reactor (MBR) are the biological cum polishing treatment systems. Spent caustic streams from refinery units is stored within ETP battery limit before feeding to the ETP at controlled rate for the treatment of its high sulfide concentration & other contaminants. The treatment envisaged is Oxidation by Hydrogen peroxide treatment. Contaminated rain water from the plant area shall be received by pumping from the plant area. Dry weather flow from oily waste sewer, which is mainly floor wash, shall be taken directly at API separator. Contaminated rain water shall be stored for 1 hr duration in a tank and shall be treated along with the oily effluent.
The impact of effluent generation during operation phase is summarized in Table 4.13.
Table 4.13: Impact of Effluent Generation (Operation Phase)
Factors of assessment
Value of assessment
Justification
Intensity Low Release of effluent 300 m3/hr. to disposed in Dhansiri river
Spatial low Impact extends in a restricted area outside the site (< 5 km)
Temporal High The impact has a long term effect.
Vulnerability Medium Open area
Evaluation of factors
Impact(Is) Low By combining intensity and spatial factors
Impact(It) Low By combining Is and temporal factors
Overall Significance Value of Impact (S)
Medium By combining It and Vulnerability factors
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Mitigation Measures
Reuse of storm water scheme as cooling tower make up is under implementation as step towards conservation of water.
The treated effluent will be disposed as per the existing practice.
4.5 NOISE ENVIRONMENT 4.5.1 CONSTRUCTION PHASE
The main sources of noise during construction will be:
Site preparation.
Civil works
Heavy equipment operations Construction noise levels associated with typical machinery based on “BS 5228: 1997 Noise and Vibration Control on Construction and Operation Sites” are summarized in the Table 4.14.
Table 4.14: Sound Pressure (noise) levels of Construction Machinery
The impact of noise emissions on ambient noise levels are summarized in Table 4.15.
Table 4.15 : Impact on Ambiant Noise (Construction Phase)
Factors of assessment
Value of assessment
Justification
Intensity Low Releases of low quantity
Spatial Medium Impact extends in a restricted area outside the site (<1 km)
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Factors of assessment
Value of assessment
Justification
Temporal Low The impact has a temporary and short term effect (1 day – 1 week)
Vulnerability Low Open area
Evaluation of factors
Impact(Is) Low By combining intensity and spatial factors
Impact(It) Low By combining Is and temporal factors
Overall Significance Value of Impact (S)
Low By combining It and Vulnerability factors
Mitigation Measures
Ensuring preventive maintenance of equipments and vehicles. Avoiding unnecessary engine operations (e.g. equipments with intermitted use
are switched off when not working). Ensuring DG sets are provided with acoustic enclosures and exhaust mufflers. NRL has developed a greenbelt both in refinery and marketing terminal with
significant nos. of fast growing saplings to mitigate various noise levels. 4.5.2 OPERATION PHASE
During operational phase of the proposed project, the noise shall be caused due to various rotating equipment viz. Pumps, Compressors & Mixers, Cooling Tower etc. The Table 4.14 gives the listing of various noise generating sources along with their design noise level considered. The impact of these noise emissions during operation is summarized in Table 4.16.
Table 4.16: Impact on Ambient Noise (Operation Phase)
Factors of assessment
Value of assessment
Justification
Intensity Low Releases of low quantity
Spatial Low The impact extends inside the site.
Temporal Low The impact has an important and long term effect (1 – 5 years)
Vulnerability Low Open area
Evaluation of factors
Impact(Is) Low By combining intensity and spatial factors
Impact(It) Low By combining Is and temporal factors
Overall Significance Value of Impact (S)
LOW By combining It and Vulnerability factors
Mitigation Measures
Avoiding continuous (more than 8 hrs) exposure of workers to high noise areas.
Provision of adequate PPE’s like ear muffs at the high noise areas.
Ensuring preventive maintenance of equipment.
Ensuring DG sets have acoustic enclosures and exhaust mufflers as per design.
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4.6 LAND ENVIRONMENT
A thematic map of Land use and land cover of 10 km radius from the project location indicating buildup, Agriculture, Industrial, Residential, Commercial etc within study area super imposed with boundary which has been given in Annexure-VIII.
4.6.1 CONSTRUCTION PHASE
The impact on land environment during construction phase shall be due to generation of debris/construction material, which shall be properly collected and disposed off. However, being the modifications limited to existing area, the generation of such waste shall be minimal. During construction, there will be no routine discharge or activity potentially impacting soils and groundwater.
The impact on land use and topography during construction phase is summarized in Table 4.17.
Table 4.17: Impact on Land Use & Topography (Construction Phase)
Factors of assessment
Value of assessment
Justification
Intensity Low Solid waste is generated during the construction period and the same shall be disposed suitably.
Spatial Low The impact extends inside the site.
Temporal Medium the impact has a medium-term effect (1 week – 1 year)
Vulnerability Low Open area
Evaluation of factors
Impact(Is) Low By combining intensity and spatial factors
Impact(It) Low By combining Is and temporal factors
Overall Significance Value of Impact (S)
Low By combining It and Vulnerability factors
There is potential for impact on soil quality due to project-related spills and leaks of fuel and chemicals and uncontrolled disposal of wastes and wastewater. Care will be taken to avoid spills and leaks of hazardous substances and all project-related wastes. Littering of sites and areas beyond the site will be controlled. The impact on soil quality during construction phase is summarized in Table 4.18.
Table 4.18: Impact on Soil Quality (Construction Phase)
Factors of assessment
Value of assessment
Justification
Intensity Low Releases of low quantity
Spatial Low The impact extends inside the site.
Temporal Medium The impact has a medium-term effect (1 week – 1 year)
Vulnerability Low Open area
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Factors of assessment
Value of assessment
Justification
Evaluation of factors
Impact(Is) Low By combining intensity and spatial factors
Impact(It) Low By combining Is and temporal factors
Overall Significance Value of Impact (S)
Low By combining It and Vulnerability factors
Mitigation Measures
Restricting all construction activities inside the project boundary.
Ensuring the top soil is not contaminated with any type of spills.
Ensuring any material resulting from clearing and grading should not be deposited on approach roads, streams or ditches, which may hinder the passage and/or natural water drainage.
The hazardous materials generated if any shall be disposed off as per prevailing practices in line with the requirement.
Developing project specific waste management plan and hazardous material handling plan for the construction phase.
4.6.2 OPERATION PHASE
The impact on land environment during operational phase shall be due to disposal of solid and hazardous waste generated during operation. Details of solid waste that will be generated from the proposed project have been already covered in Chapter 2. The impacts on soil quality during operation phase are summarized in Table 4.19.
Table 4.19: Impact on Soil Quality (Operation Phase)
Factors of assessment
Value of assessment
Justification
Intensity Low Releases of low quantity
Spatial Low The impact extends inside the site.
Temporal Low the impact has a short term effect
Vulnerability Low Open area
Evaluation of factors
Impact(Is) Low By combining intensity and spatial factors
Impact(It) Low By combining Is and temporal factors
Overall Significance Value of Impact (S)
Low By combining It and Vulnerability factors
Mitigation Measures
Disposing of hazardous wastes to be carried out as per standard practices. Spent catalysts generated if any shall be disposed off to authorized recyclers by the concerned statutory authorities. or TSDF.
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4.7 BIOLOGICAL ENVIRONMENT 4.7.1 Construction phase Impact Evaluation
The proposed facilities are to be developed within the available area of the existing refinery.
This area is a graded land without any vegetation. The project site does not harbor any fauna of importance. Therefore, the impact of construction activities on fauna will be insignificant. The impacts on flora and fauna during construction phase are summarized in Table 4.20.
Table 4.20: Impact on Biological Environment (Construction Phase)
Factors of assessment
Value of assessment
Justification
Intensity Low Clearing of scanty vegetation
Spatial Low Impact extends inside the site
Temporal Low The impact has short term effect due to clearance of scanty vegetation.
Vulnerability Low Industrial area
Evaluation of factors
Impact(Is) Low By combining intensity and spatial factors
Impact(It) Low By combining Is and temporal factors
Overall Significance Value of Impact (S)
Low By combining It and Vulnerability factors
Mitigation Measures:
Closing of trenches as soon as possible of construction.
Prevent littering of work sites with wastes, especially plastic and hazardous waste.
Training of drivers to maintain speed limits.
Restriction in the night time work and use of flood lights.
4.7.2 Operation phase
Impact Evaluation
The impacts due to proposed project activities during operation phase shall be limited to long run impact of emissions and traffic movement. Details of all type of impacts that can occur during operation phase.
Impacts on Flora & Fauna during operation phase are summarized in Table 4.21.
Table 4.21: Impact on Biological Environment (Operation Phase)
Factors of assessment
Value of assessment
Justification
Intensity Low Resultant GLC’s within the ambient air quality standards.
Spatial Low Impact extends inside the site
Temporal Low Impact has an temporary and short term effect
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Factors of assessment
Value of assessment
Justification
Vulnerability Low Industrial area
Evaluation of factors
Impact(Is) Low By combining intensity and spatial factors
Impact(It) Low By combining Is and temporal factors
Overall Significance Value of Impact (S)
Low By combining It and Vulnerability factors
Mitigation measures
Maintain the greenbelt already developed.
Plant additional trees during operation phase. 4.8 SOCIO ECONOMIC ENVIRONMENT 4.8.1 CONSTRUCTION PHASE During the construction period, there will be short-term socio-economic impacts, which
include employment and population, economic activities, housing and settlement and the need for basic facilities / amenities.
4.8.1.1 Employment Generation
Direct and indirect employment of 1500 to 2000 will be required during the construction period for about 4 years. Most of the workers required are unskilled and semi-skilled. In addition, indirect employment will also be created but the number is very much limited to commercial activities like selling food and sundry items, transportation and security. Considering the large increase in demand for workers, it is expected that a large number of workers will come from outside, while a number of local residents may be hired from a pool of unemployed or from those who are willing to switch jobs temporarily, especially those in the unskilled category. Consequent to the temporary migration of people from other districts/ states, the demographic profile would be affected in terms of age, number, skills and sex composition. With the expected increase in population there could be a need for some social adjustment and need for administrative control in the area. Further, the project will provide temporary employment of skilled and highly skilled manpower. Most of the people will be employees of contractors/ subcontractors. The number of employees deployed is likely to increase gradually, peak and then gradually fall to normal levels on the completion of the project.
4.8.1.2 Effect on Transport
Transport requirements will arise during the construction phase due to the movement of both the personnel and materials. The site is well connected to direct road on all sides.
(a) Transport of Personnel Transport of the managerial personnel is likely to increase the vehicular traffic on the roads connecting the proposed site to the city. The incremental traffic for the additional people would be about 50 cars.
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(b) Transport of construction materials
The transport of construction materials to the project site will result in increased traffic in the impact area. The constructions of capital intensive structures such as reactors and columns require iron and steel, heavy construction equipment and other construction materials. They will have to be transported to the site using trucks. Roughly, on an average of approximately 10 trucks per day will be needed for transporting the construction materials.
(c) Effect on local traffic The incremental daily traffic during construction phase works out to be about 50 cars and 4 buses per day.
4.8.1.3 Effect on Other Local Infrastructure
The majority of unskilled labourers are available in the impact area itself, the incremental effect on housing during the construction phase will be minimal. But, during the working hours of the day, the demand for food, water, sanitation and health facilities at the construction site will go up. Though the truck drivers appear to form a floating population, there will be a general flow of this group throughout the duration of the construction phase. There will be an impact on basic necessities like shelter, food, water, sanitation and medical facilities for the truck drivers. The impact of construction activities on socio-economic environment during construction phase is summarized in Table 4.22. Table 4.22: Impact on Socio-Economic Environment (Construction Phase)
Factors of assessment Value of
assessment Justification
Intensity Low Involvement of labour, infrastructure and other utilities in a phased manner. Also it is considered as a positive impact in terms of employment generation
Spatial Low Impact extends in a restricted area outside the boundary (< 2 km). Also this is a positive impact in terms of employment generation.
Temporal Low The impact has an medium term effect (1 week – 1 year). Also this is a positive impact in terms of employment generation
Vulnerability Low Open area
Evaluation of factors
Impact(Is) Low By combining intensity and spatial factors
Impact(It) Low By combining Is and temporal factors
Overall Significance Value of Impact(S)
Low By combining It and Vulnerability factors
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Mitigation Measures
Conducting awareness programs for workers.
Monitoring speed and route of project-related vehicles.
Determining safe, legal load limits of all bridges and roads that will be used by heavy vehicles and machinery.
Determining allowable traffic patterns in the affected area throughout the work week will be made based on community use, include a consideration of the large turning requirements of certain vehicles/machineries that might increase congestion and traffic hazards.
Consolidating deliveries of materials and personnel to project sites, whenever feasible, to minimize flow of traffic.
Minimizing interruption of access to community for use of public infrastructure.
Providing prior notice to affected parties when their access will be blocked, even temporarily.
Preventing use of drugs and alcohol in project-sites.
Preventing possession of fire arms by project-personnel, except those responsible for security.
4.8.2 OPERATIONAL PHASE
Operational phase of the plant covers the entire life span of the plant. Hence the impacts of the operational phase extend over a long period of time. These impacts include employment generation, effects on transport and other basic infrastructure. Moreover, all the facilities required for this project shall be present in existing Refinery premises and already acquired leased plots available adjacent to refinery. Hence there is no applicability of Rehabilitation and Resettlement policy (R & R) for this project. All these areas are under direct control of NRL and there is no settlement inside boundaries of these areas.
Employment Scenario
Employment of approximately 500 persons directly and around 1500 persons indirectly is envisaged during operation phase. Effect on Transport
Transport requirements will arise due to the movement of both the personnel and
materials. (a) Transport of Personnel
Transport of the managerial personnel is likely to increase the vehicular traffic on the roads connecting the proposed site to the city. The incremental traffic for the additional people would be about 50 cars.
(b) Transport due to movement of materials/products
A dedicated parking space is available for movement of trucks in the marketing terminal inside and outside of the refinery. There will be 50 additional trucks movement envisaged. Hence, the existing parking space is adequate.
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(c) Effect on local traffic
In existing scenario of Numaligarh refinery complex around 150 no. of trucks per day is envisaged and due to proposed project, it will be increased by 50 trucks per day for the transportation (‘to and fro’ movement) of raw material, finish products and other. The impact of these activities on socio-economic environment during operation phase is summarized in Table 4.23.
Table 4.23: Impact on Socio-Economic Environment (Operation Phase)
Factors of assessment
Value of assessment
Justification
Intensity Low Involvement of labour, infrastructure and other utilities in marginal quantities/Nos.
Spatial Low Impact extends in a restricted area outside the site
Temporal Low The impact has a medium term effect
Vulnerability Low Open area
Evaluation of factors
Impact(Is) Low By combining intensity and spatial factors
Impact(It) Low By combining Is and temporal factors
Overall Significance Value of Impact (S)
Low By combining It and Vulnerability factors
Mitigation Measures
o Extending reach of CER Program to the surrounding villages. o Monitoring speed and route of project-related vehicles. o Improvement in health, education facilities. o Monitoring speed and route of project-related vehicles. o Determining safe, legal load limits of all bridges and roads that will be used by
heavy vehicles and machinery. o Determining allowable traffic patterns in the affected area throughout the work
week will be made based on community use, include a consideration of the large turning requirements of certain vehicles/machineries that might increase congestion and traffic hazards.
o Consolidating deliveries of materials and personnel to project sites, whenever feasible, to minimize flow of traffic.
o Minimizing interruption of access to community for use of public infrastructure. o Providing prior notice to affected parties when their access will be blocked, even
temporarily. o Preventing use of drugs and alcohol in project-sites. o Preventing possession of firearms by project-personnel, except those
responsible for security.
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4.9 SUMMARY OF IMPACTS:
Based on the above evaluation the significance value of impact on various components of environment during construction and operation phases is summarized and is given in Table 4.24.
Table 4.24: Summary of Impact Evaluation in terms of Significance Value
Environmental component Construction Operation
Air Low Low
Water Consumption of Raw Water Low Medium
Generation of Effluent Low Medium
Land Land use & Topography Low Low
Soil Quality Low Low
Noise Low Low
Biological Low Low
Socio-Economic Low Low
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CHAPTER 5
ANALYSIS OF ALTERNATIVE SITES
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5.1 EXISTING REFINERY
Numaligarh Refinery Limited (NRL), a company promoted by Bharat Petroleum Corporation Limited (BPCL), Govt. of Assam and Oil India Limited (OIL) having the shareholding pattern 61.65%, 12.35% and 26.00% respectively, operating a 3 MMTPA grass root oil refinery located at Numaligarh, District Golaghat, Assam, India. Presently, the existing refinery spread over 333.5 Ha.
5.2 SITE SELECTION
The proposed refinery expansion is coming within the existing refinery battery limit. No alternative site selection was carried out because the existing refinery has enough space to cater the new facilities.
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CHAPTER – 6
ENVIRONMENTAL MONITORING PROGRAM
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6.0 INTRODUCTION
Regular monitoring of environmental parameters is of immense importance to assess the status of environment during project operations. With the knowledge of baseline conditions, the monitoring program will serve as an indicator for any deterioration in environmental conditions due to operation of the project, to enable taking up suitable mitigation steps in time to safeguard the environment. Monitoring is as important as that of pollution since the efficiency of control measures can only be determined by monitoring. Usually, as in the case of the study, an impact assessment study is carried out over short period of time and the data cannot bring out all variations induced by the natural or human activities. Therefore, regular monitoring program of the environmental parameters is essential to take into account the changes in the environmental quality.
6.1 ENVIRONMENTAL MONITORING AND REPORTING PROCEDURE Development of the program during the planning process shall be conducted or supported by environmental specialists. However, the implementation responsibility rests with working managers of NRL, who should, therefore, ensure they fully understand and subscribe to the commitments being made. These commitments will include the legal and statutory controls imposed on the operation as well as other corporate commitment to responsible environment management. NRL had already an Engineering Group to review the effectiveness of environment management system during construction and operational phase of existing and proposed project expansion. The Environmental Monitoring Cell (EMC) is a part of Engineering Group who works for monitoring and meet regularly to review the effectiveness of the EMP implementation. The data collected on various EMP measures would be reviewed by EMC and if needed corrective action will be formulated for implementation. The organogram of NRL EMC is given below in Figure 6.1. Monitoring shall confirm that commitments are being met. This may take the form of direct measurement and recording of quantitative information, such as amounts and concentrations of discharges, emissions and wastes, for measurement against corporate or statutory standards, consent limits or targets. It may also require measurement of ambient environmental quality in the vicinity of a site using ecological / biological, physical and chemical indicators. Monitoring may include socio-economic interaction, through local liaison activities or even assessment of complaints.
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Fig. 6.1 EMC Organogram of NRL
6.2 OBJECTIVES OF MONITORING To ensure the effective implementation of the proposed mitigation measures, the broad objectives of monitoring plan are:
To evaluate the performance of mitigation measures proposed in the environmental monitoring programme.
To evaluate the adequacy of Environmental Impact Assessment.
To suggest improvements in management plan, if required.
To enhance environmental quality.
To undertake compliance monitoring of the proposed project operation and evaluation of mitigative measure.
6.3 CONSTRUCTION PHASE
Chapter-4 describes the impacts and mitigation measures envisaged during construction phase vis-à-vis the environmental components which are likely to get impacted in case mitigation measures are not adequately followed. In view of the same the environmental components / indicators which are to be monitored during construction phase are air, water, noise levels and soil. Due to construction activities, the environmental monitoring program shall be accordingly arranged. The air quality (at the project site and ambient air quality in the surrounding nearby villages) will indicate to which extent the mitigation measures are being followed. Similarly the up-stream and downstream surface water quality (w.r.t. project site), will indicate the quality and extent of wastewater from the project site is being discharged in to the canal (vis-à-vis the extent of environmental mitigation measures being followed during construction phase). Likewise the monitoring of ground water, up-gradient and
Director (Technical)
GM (TS)
Chief Manager (TS)
Manager (Environment)
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down-gradient of project site will indicate seepage of pollutants in to ground water from the construction site. The noise levels at the project site and surrounding premises has been planned to be assessed to which the construction workers are exposed during construction phase. This will indicate the level of noise mitigation measures being followed during the construction phase. The soil quality at the project site will indicate the pollutant fallout from the construction site. The environmental monitoring programme during construction phase is presented in Table 6.1. The implementation of monitoring will be contractor’s responsibility and the supervision will be done by NRL.
Table 6.1 Environmental Monitoring Programme – Construction Phase (4 years)
Component
Parameters Location / Frequency of Monitoring
No. of Samples / year (Locations X Monitoring Frequency)
Air SO2, NOx, PM10 & PM2.5
At two locations, one at project site and another is at plant boundary. Twice in a season (except monsoon) per year for 2.5 years
4 x 3
Water
Surface Water: CPCB surface water criteria; Ground Water: IS:10500
One surface water in the project site per season. Two Ground Water: One Up-gradient and One Down-gradient of project site per season.
3 x 3
Noise Noise Levels Leq (A)
At two locations, one at project site and another is at plant boundary. Once in a season (except monsoon) per year for 2.5 years
2 x 3
Soil As per standard practice
At one location, in the project site. Twice in a year.
1 x 2
Note: Construction Period is 4 Years
The proposed environmental monitoring program during construction phase of the expansion of NRL is mentioned below Table 6.2.
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Table 6.2 Proposed Environmental Monitoring during Project Construction Stage
Sl.No. Potential impact Action to be Followed
Parameters for
Monitoring Frequency of
Monitoring
1 Air Emissions
All equipment is operated within specified design parameters.
Random checks of equipment logs/ manuals
Periodic
Vehicle trips to be minimized to the extent possible.
Vehicle logs
Periodic during site clearance & construction activities
Any dry, dusty materials stored in sealed containers or prevented from blowing.
Absence of stockpiles or open containers of dusty materials.
Periodic during construction activities
Compaction of soil during various construction activities
Construction logs
Periodic during construction activities
2 Noise Night working is to be minimized.
Working hour records
Daily records
Generation of vehicular noise
Maintenance of records of vehicles
Daily records
Acoustic mufflers / enclosures to be provided in large engines
Mufflers / enclosures in place.
Prior to use of equipment.
Vehicle trips to be minimized to the extent possible
Vehicle logs
Periodic during construction activities
3 Soil Erosion
Protect topsoil stockpile wherever possible.
Effective cover in place.
Periodic during construction activities
4 Health
Employees and migrant labour health check ups
All relevant parameters including audiomerty
Regular check ups
5 Construction camps
Away from settlements and ensure disciplinary procedures. Avoid use of public infrastructural facilities such as power, gas and water and maintain
Regular monitoring
Pre-construction
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Sl.No. Potential impact
Action to be Followed
Parameters for Monitoring
Frequency of Monitoring
hygienic conditions
6 Waste Management
Identification & characterization of every waste arising from proposed activities as per prevalent waste management plan and which also identifies the procedures for collection, handling & disposal of each waste arising.
Comprehensive Waste Management Plan in place and available for inspection on-site. Compliance with Hazardous Wastes (Management and Handling Rules), 2008
Periodic check during construction activities
7 Fuel and oil leaks
Use designated fuel storage methods and ensure that oil spill response plan is in place
Visual inspection and monitoring of soil and ground water quality
Throughout construction period
8 Non-routine events and accidental releases
Plan to be drawn up, considering likely emergencies and steps required to prevent/limit consequences.
Mock drills and records of the same
Periodic during construction activities
9 Public and animal safety
Erection of warning barriers
Routine monitoring and checks
Throughout construction period
10 Water and waste water
Take care in disposal of Waste water generated such that soil and groundwater resources are protected.
Discharge norms for effluents as given in permits
Periodic during construction activities
6.4 OPERATION PHASE
The components / indicators of different environmental monitoring program are as under.
6.4.1 Monitoring For Pollutants
As stated under Chapter-4, the environmental stresses from pollutants are marginal. Often the range of impact is limited to the plant and in its immediate vicinity, the monitoring schedule is evolved accordingly.
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6.4.1.1 Work zone noise levels
NRL will monitor the noise levels inside and around the plant once in every two months as per standard practice in line with requirement. Extensive survey will be done in occupied areas near the sources of noise. Monitoring will be done as per below mentioned Table 6.3. NRL will keep a record of noise levels and take necessary organizational actions like rotation of workmen, availability and use of personal protective devices, damage to enclosures or insulation layers over enclosures and piping.
Table 6.3 Noise Level to be monitored
Description Nos. of Locations Monitoring Frequency
Work zone Noise
No.of location shall be fixed after project implementation.
Once in every two months in and around project area.
*Noise Level in Leq (A)
6.4.1.2 Stack Gas Monitoring
The flue gas coming out from the stacks will be sampled and monitored for SO2, NOx, CO and PM. Manual monitoring of the flue gases will be done once in every two months as prescribed by MoEFCC circular, 2008.
6.4.1.3 Effluent Monitoring for ETP
Effluent at the inlet and outlet from ETP at the site would be monitored. The parameters to be monitored as per CPCB standard. The monitoring frequency will be as prescribed by MoEFCC circular, 2008.
6.4.2 Meteorology
The temperature, wind speed, wind direction, cloud cover, and rainfall shall be monitored and recorded daily. These data shall be used for detailed short term and long term predictions of atmospheric dispersion of the pollutants released from the stack.
6.4.3 Ambient Air Quality
Presently one continuous AAQM stations is in place in the refinery along with 4 manual station in and around the refinery including one Ambient Air Quality monitoring station in Agaratoli of Kaziranga National Park. The equipment at the continuous monitoring stations has facilities to monitor parameters as per NAAQS 2009. AAQ is being monitored as per NAAQS 2009 (Table 6.4). After the implementation of the proposed project the ambient air shall be regularly monitored as given in Table 6.4.
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Table 6.4 Ambient air to be monitored
SlNo
Description Number of
AAQ Stations
Monitoring Frequency
1. Ambient Air Quality (manual) in AAQMS
3 Two samples per week in each station- 24 hour continuous except monsoon
* All Parameters of NAAQS, 2009.
6.4.4 Wastewater from Project Site
All the waste water generated within the refinery shall be treated up to the applicable standard. The treated wastewater from ETP will be recycled/ reused as per the existing practice of the refinery.
6.4.5 Ambient Noise
Ambient noise shall be monitored at two locations in villages surrounding the refinery, twice in each season.
6.4.6 Ground Water Monitoring
Ground water shall be sampled from wells / hand-pumps / tube-wells, up gradient and down gradient of the plant area and the residential area to check for possible contamination and to ascertain the trend of variation in the water quality, if any. In case any adverse trend is noticed, immediate remedial measures shall be taken. A total of four samples shall be monitored once in each month for the critical parameters.
6.4.7 Soil Quality Monitoring Soil samples from one location in the project site shall be analysed twice a year. 6.4.8 Solid/Hazardous Waste Disposal
Hazardous waste generated from the refinery will be disposed as per applicable stipulations of statutory authorities. Periodic surveillance monitoring will be conducted to ensure that the wastes are disposed in the manner as specified.
6.4.9 Green Belt Development
The following plan has been made for implementation of green belt at the site for the proposed project:
Annual plans for tree plantation with 1500 trees per ha to be planted. The fulfillment of the plan shall be monitored every six months.
A plan for post plantation care will be reviewed in every monthly meeting. Any abnormal death rate of planted trees shall be investigated.
Regular periodic watering of the plants, manuring, weeding, hoeing will be carried out after the plantation work.
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6.4.10 Socio-Economic Development
The proposed expansion will improve the infra-structure & socio-economic conditions thus will enhance the overall development of the region. The communities, which are benefited by the plant, are thus one of the key stakeholders. It is suggested that the plant management under Corporate Social Responsibility (CSR) plan will have structured interactions with the community to disseminate the measures planned / taken by NRL and also to elicit suggestions from stake-holders for overall improvement for the development of the area. The proposed environmental monitoring programme during operation phase of the expansion of NRL is mentioned below Table 6.5. Table 6.5 Proposed Environmental Monitoring During Operational Phase
Sl.No. Potential impact Action to be Followed
Parameters for
Monitoring Frequency of
Monitoring
1 Air Emissions
Stack emissions to be optimized and monitored.
Gaseous emissions (SO2, PM, CO, NOx) or as per consent of SPCB.
Online continuous.
Cold venting any from storage tanks
Quantity and cold venting if any.
Continuous
Ambient air quality within the premises of the proposed unit and nearby habitations to be monitored. Exhaust from vehicles to be minimized by use of fuel efficient vehicles and well maintained vehicles having PUC certificate.
SPM, RSPM, SO2, NOx, CO, HC Vehicle logs to be maintained
As per CPCB/ PCB, Assam requirement or on monthly basis whichever is earlier
Measuring onsite data of Meteorology
Wind speed, direction, temp., relative humidity and rainfall.
Periodic during operation phase
Vehicle trips to be minimized to the extent Possible.
Vehicle logs
Daily records
2 Indoor air contamination
Pollutants such as CO, CO2 and VOCs to be reduced by providing adequate ventilation.
Monitoring of indoor air pollutants such as CO, CO2 and VOCs.
As per CPCB / PCB, Assam requirement
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Sl.No. Potential impact
Action to be Followed
Parameters for Monitoring
Frequency of Monitoring
3 Noise Noise generated from operation of DG set to be optimized and monitored. DG sets are to be provided at basement with acoustic enclosures
Monitoring groundwater quality and levels around refinery premises
Comprehensive monitoring as per IS 10500
Once in a season
5 Wastewater Discharge
No untreated discharge to be made to surface water, groundwater or soil. The cleaning water shall be disposed in nearby ETP.
No discharge hoses in vicinity of water courses.
Periodic during operation phase
Take care in disposal of Wastewater generated such that soil and Groundwater resources are protected.
Discharge norms for effluents as per ETP norms
Periodic during operation phase
6 Maintenance of flora and fauna
Vegetation and greenbelt / green cover development.
No. of plants species
Periodic during operation phase
7 Health
Employees and migrant labour health check ups.
All relevant parameters including audiometry
Regular check ups
8 Energy Usage
Energy usage power generation, air conditioning and other activities to be minimized. Conduct annual energy audit for the terminals
Energy audit report
Annual audits and periodic checks during operational phase
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CHAPTER – 7
ADDITIONAL STUDIES
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7.0. ADDITIONAL STUDIES
In addition to the main EIA study, Rapid Risk Assessment and Disaster Management Plan (On-site & Off-site Emergency Plan) have been carried out by EIL. Details of Offsite and Onsite Emergency preparedness plan are given below.
7.1. OFFSITE EMERGENCY PREPAREDNESS PLAN
Most of the industrial plants are designed and built in such a manner that they are inherently safe. This integral part of safety is further enhanced by proper care and maintenance, which includes various safe operating procedures and training. But nevertheless a well designed, operated and maintained plant cannot be said to be safe from any emergency. The risk of major emergency always threatens the plants / personnel due to complex nature of design and operating parameters. The emergency of a giant size process plant can cause damage not only to the life and property of the plant itself but also to the population in proximity. The injury and property damage result from six basic causes: work accidents, fire and explosions, flood, earthquake, hurricanes, tornadoes, war fare or civil strife. The Offsite Emergency Preparedness Plan deals with these incidents which have the potential to harm life, property and environment outside the boundary of the organization. The plan has been formulated according to the Assam Gazette No 93 dt. 29-06-92 in Assam Control of Industrial Major Accidents Hazards Rule 1990 and the notification in the gazette of India No 787 dt. 27.11.1989 (Manufacture, storage and impact of hazardous chemicals Rule 1989). Complete Offsite & Onsite Emergency Preparedness Plan is attached as Annexure-XIV – ERDMP (Offsite & Onsite).
7.1.1 Objectives The main objectives of Offsite Emergency Response Management are as follows:
1. Identification of emergency scenarios and advance planning for combating the situation for minimizing the loss of lives and of property.
2. To provide means and methods for effective control of emergency so as to bring situation under control.
3. To mobilize services from external agencies in minimum possible time. 4. To safe guard properties, environment and human life and minimize above loss. 5. To assure restoration of normalcy at the earliest.
The main purpose of this plan is to outline the procedures for immediate response if any major emergency occurs in the refinery premises. Every major hazardous unit has its own Onsite Emergency Response Management plan which deals with an emergency inside the premises of the factory. But if an emergency erupts beyond the premises of the factory; they have the obligation to seek assistance from the government. The plan comes into action as soon as the occupier of the factory triggers the initial action plan of Offsite Emergency Preparedness Management as specified under this plan.
7.1.2 Types of Disaster
The types of disaster considered for this plan is limited to the following.
Fire and explosion VCE & BLEVE potential Toxic gas release Large oil spills
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Causes of Disaster a) In plant emergencies due to deficiencies of, Operation Maintenance Manufacturing/improper handling of equipment Design or equipment failure.
b) Emergency during transportation of hazardous material by road, rail or by pipeline. c) Emergencies in nearby industries and installations. The other causes of disaster may be due to,
o Natural calamities like cyclone, storm, flood, lightning and earthquake. o Deliberate man made acts like sabotage, riot, war and objects from falling
aircrafts /rockets. The following emergency scenarios are considered for NRL. 1. Vapour Cloud Explosion in Horton Sphere area. 2. Fire in LPG bottling plant 3. BLEVE in one of the Horton sphere 4. Major fire in Crude tank area 5. Toxic gas release in plant
7.1.3 Responsibilities – Emergency
Duties and responsibilities of Chief Offsite Emergency Coordinator The Deputy Commissioner (DC) of Golaghat district will be the (COEC) Chief Offsite Emergency Coordinator for operating the Offsite Emergency Preparedness Plan. He will exercise the authority for implementation of the plan along with Additional Deputy Commissioner (ADC) R&R, Golaghat. The COEC will coordinate all activities with the Onsite Emergency Coordinator, NRL. He will be the authority to order evacuation wherever it is necessary and also coordinate with various agencies like police, fire services, medical, transport, railway, civil defence, army, factory inspectorate and state pollution control board. On reaching the refinery COEC will –
Assess extent of the emergency and likely development organize action plans in the following areas :
Immediately advice to (CEC) Chief emergency co-ordinator as to how to control the situation.
Assistance in case of complete or partial evacuation if necessary.
Assistance in case of the evacuation of seriously injured or ill personnel.
Provision of equipment, material ad manpower etc to control the situation.
Ensure that causalities receive adequate attention.
Ensure that all personnel at the factory are accounted for.
Arrange search and rescue of missing persons.
Arrange for a chronological record of the emergency to be maintained.
Where the emergency is prolonged arrange for replacement of personnel and provision of catering facilities.
Authorize information to be given to media.
Ensure that proper consideration is given to the preservation of evidence.
Control rehabilitation of affected areas on cessation of emergency.
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The detailed duties and responsibilities are as under:
Assume full responsibility for overall control.
Establish the Control room at a) NRL premises near main gate (security office) b) DC, Office Golaghat c) Police Station, Numaligarh Outpost d) Alternate control room at NRL Guest house
o Establish the communication facility in the control room.
Requisition of fire fighting vehicles from Golaghat, Bokakhat, Dergaon and Jorhat as per the demand of the situation.
Arrangement for announcement through PA system to the affected population in and around refinery and advice precautions to be taken.
Identify places for safe shelters were evacuated population has to be lodged and arrange tents etc. for shelters in open spaces/public halls/schools.
Ensuring food, drinking water and proper sanitation to evacuated persons kept in various shelters.
Requisition of all possible modes of transport for evacuation of affected personnel.
Monitor shelter camps and evacuated locality till normalcy is restored. To identify the likelihood of reoccurrence of the situation.
Making public announcement from time to time about the gravity of situation in shelter camps and in neighbouring villages.
Mobilize manpower from VDP of the affected area for rescue and rehabilitation programme.
Organize necessary medical aid through district health officer and other voluntary organizations.
After declaration of normalcy investigate the cause of disaster and take preventive action.
Train all personnel under COEC ad conduct regular mock drills.
Duties and responsibilities of Addl. Deputy Commissioner (R & R) The duties and responsibilities of Addl. Deputy Commissioner are as follows.
Act as an alternate leader or Liaison Officer in case of measure disaster/ emergency at NRL.
Establish a control room at DC, office Golaghat.
Check in at the DC office Golaghat and Ensure that all agency resources have completed check-in.
Obtain briefing from liaison officer or incident controller.
Establish working location. Advise agency personnel on the incident that the agency representative position has been filled.
Attend planning meeting as required.
Oversee the well being and Safety of agency personnel assigned.
Advise liaison officer of any special agency needs or requirements.
Determine, if any special reports or documents are required.
Ensure that all agency personnel and/ or equipment are properly accounted for and released departure from the incident.
Give debriefing session with media person prior to departure.
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Duties and responsibilities of Onsite Emergency Coordinator
The duties and responsibilities of Onsite Emergency Coordinator are as follows: At the scene of emergency the person notified under the contingency plan of NRL will take up the responsibilities of Chief Emergency Coordinator (CEC – Onsite) and will remain in command at the site control room. A primary task of the OEC is to go to the scene of the emergency, make an informal assessment of the situation and decide whether a major emergency exists or is likely to develop soon. On his decision he will inform the CEC and activate the emergency procedure. Immediately on being aware that a major emergency exists:
He should ensure that the concerned agencies are notified in the prescribed manner.
He will coordinate on scene emergency action as per in-house contingency plan.
He will proceed to incident site and assume responsibilities of the post and remain in command.
He will activate the Onsite Emergency Control room at Fire station of NRL.
He will keep Advisory body of NRL informed from time to time on
Steps taken to fight the emergency.
Status of emergency at the time of reporting.
Further actions as necessary. Organogram for Onsite Emergency Preparedness Plan is given in Figure: 7.1.
Figure: 7.1: Organogram for Onsite Emergency Preparedness Plan of NRL
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Duties and responsibilities of Police (Security & Evacuation)
The duties and responsibilities of Onsite Emergency Coordinator are as follows.
The supt. of police, Golaghat will be the over all in charge for security, evacuation, rescue operations, law and order and traffic control at the time of emergency.
To ensure that all the provisions listed in the contingency plan are available at all the time.
Periodical review of the contingency plan and its accuracy.
The major role of the Police Deptt. would be to provide effective communications, cordon off area of disaster and ensure free movement of traffic involved in relief operation and to provide suitable assistance in the affected areas.
To ensure law and order.
Organising fire fighting with the help of state and refinery fire fighting team.
To safeguard vacated properties in the locality.
Maintain security watch in the area till the evacuees get returned to site.
Assist the medical and evacuating teams to work without any hindrances and help the medical dept in evacuating the causalities.
Prevent unauthorized entry of the personnel in to the affected area.
Apart from normal police equipments it is necessary that police force should also be equipped with personal protective equipments for respiratory and body protection. This may include steel O.G. helmets, gas mask, water bottle, ear plugs etc.
Evacuation of population is a very difficult task requiring massive resources at a very short notice. It is therefore, essential that evacuation be done on a very selective basis in consultation with Chief Emergency Co-ordinator (On-Site).
Duties and responsibilities Fire Services The chief of District Fire Services i.e. SP Golaghat will be overall in-charge of Fire services. He will act as fire chief during Off-site Disaster Management Plan. He may nominate some of his sub-ordinate to look after the fire service activities in case of emergency. Following are the duties and responsibilities of fire Chief:
Inspection and identification of risks.
Identifying proper approach roads and means of escape.
Ensuring adequate supply of water for fire fighting.
Provision of appropriate type of fire fighting vehicles and chemicals needed for the emergency.
Provision of required quantity of fire fighting agents and their easy mobility.
Provision of well trained man power for fire fighting and rescue operations.
Arrangement for pulling out man power reserved from various teams without loss of time.
Employing man power/ resources under a definite command.
Adequacy of specialized rescue team.
Formulate chain of command among fire fighters.
Prepare a plan for human service required for emergency response.
Prepare a plan for fire and rescue.
Prepare a plan for response personal safety.
Maintenance of standby personnel/equipment for fire fighting.
Fire services must be aware of the properties and behaviour of various industrial chemicals. While fighting an emergency they themselves should not get affected by the toxic gases or any other harmful chemicals. Proper protective equipment should be used for this purpose.
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Duties and responsibilities Medical Services Duties and Responsibilities of District Health Officer are given as follows. Joint Director Health Services, Golaghat will be over all in-charge of medical services to be rendered to the affected people both at the site and the location where evacuated people are sheltered. Quick medical treatment to the injured people in a major industrial accident is essential. Following are the duties and responsibilities of the District Health Officer: (Joint Director Health Services)
Maintain adequate inventory of medicines for identified potential hazardous situations.
Maintain a directory of doctors, hospitals and other emergency medical services in Golaghat District.
Review of contingency plan and update as and when required.
Organize a first aid team and ambulance at the time of disaster.
Inform all private doctors and the hospitals of the district, if needed.
Arrange for hospitalization/treatment of a effected people in that area.
The district health officer will arrange for setting up first aid centres in nearby locality and evacuate personnel on priority for medical treatment.
Organogram for Support/medical services is given in Figure: 7.2.
Figure: 7.2: Organogram for Support/Medical Services
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Duties and responsibilities of District Transport Authorities
Duties and Responsibilities of District Transport Authorities are given as follows.
o To arrange for despatch of vehicles to the emergency spot immediately on receipt of information about emergency.
o To contact the Officer In-Charge of the parking yard regarding evacuation of public during emergency period and apprise him of the despatch of vehicles.
o To maintain a list of vehicles for use in case of emergency. o Ensure strict enforcement of regulations laid down improve safety in transportation
of hazardous substances. o Organise Transportation arrangement for evacuation. o Ensure TREMCARD is available in the tankers transporting hazardous chemicals. o Divert tankers transporting hazardous chemicals in association with traffic police in
case of disaster. o The tanker drivers are to be trained for transportation of hazardous s chemicals in
consultation with refinery/marketing terminal officials.
Duties and responsibilities of District Telephone Authorities Duties and Responsibilities of District Telephone Authorities are given as follows. The Communication unit officer under the direction of Supt of Police is responsible for developing plans for the effective use of incident communications equipment and facilities, installing & testing of communication and equipment; supervision of the emergency control rooms; distribution of communication equipment to incident personnel; and the maintenance and repair of communications equipment.
Obtain briefing from Supt. of Police, Golaghat
Determine unit personnel needs.
Advise on communication capabilities and /or limitations.
Prepare and implement the incident Radio communications Plan.
Ensure that the emergency control Centers are established and Message Centre is established.
Set up the telephone and public address systems.
Establish appropriate communication distribution and /or maintenance locations within the base and /or map.
Ensure communications systems are installed and tested.
Ensure an equipment accountability system is established.
Ensure personal portable radio equipment from cache is distributed per radio plan.
Anticipated problems in the use of communications equipment.
Keeping telephone lines of hazardous factories and service agencies in perfect working order.
Keeping emergency gangs in readiness for repair work
Communicate with Head office the details on the field activities including deployment and reinforcement of staff and resources and communicate nature of additional requirements.
To maintain a list of important telephone nos. of different agencies.
To see that all those telephones do not remain in case of emergency.
To maintain and check the functioning of “Hot Line” telephones.
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Duties and responsibilities of NRL Authorities Duties and Responsibilities of NRL Authorities are given as follows.
Provides COEC information about all the hazards involved in the process their potential impact to the surrounding.
The occupier may also provide an on-site disaster management plan to the COEC.
The list of disaster management facilities available at NRL may be provided to COEC.
The occupier of the industry should also provide all technical know-how and expertise to COEC to mitigate the disaster at Numaligarh.
7.1.4 Safety Precautions
The following safety measures to be taken in case of gas leakage, fire explosion, spillage or leakage of chemicals.
On indication of gas leakage, cover nose and mouth with wet cloth and move away quickly in the opposite direction of wind.
Make sure that women and children are moved outside the house.
On getting information about gas leakage, use all available mode of transport to move quickly to a safe place.
Set the cattle, poultry and other domestic animals free to reach to the safe place on their own.
To avoid fire hazard during gas leakage, putout all types of open flames. Do not use matches or lighters.
In case of such a incident, give shelter to old and disabled persons inside the house, keeping all doors and windows closed. Keep radio ‘on’ for announcements.
If the incident occurs at night, wake up your neighbors by making loud noise and brief them about the occurrence.
Do not leave the safety assembly place without permission from authorized persons.
7.1.5 Monitoring Committee
A monitoring committee shall be formed by the district Administration to ensure the effective preparedness of the Off-Site Disaster Management plan. The committee shall meet regularly at least every three months and shall conduct Mock-drills at suitable intervals. The committee shall review the effectiveness of the mock-drills and take remedial measures for further improvement.
7.1.6 Contact Details
The immediate contact details during emergency are given below:
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Important telephone numbers for offsite emergency preparedness plan
1. Chief Secretary GOA, Dispur Guwahati 2261120 / 2261403, 2360020(R) 2. Deputy Commissioner, Golaghat 280222 (O) 280221 (R) 3. Addl Deputy Commisioner,(R&R) Golaghat 280276 (O) 281019 ( R ) 4. Supt. of Police, Golaghat 280233 (O) 280234 (R) 5. Officer in charge PS, NRL site 265421 6. Officer in charge PS, Golaghat 280224/280081 7. Officer in charge PS, Bokakhat 268017 8. Officer in charge PS, Dergaon 280272 9. Officer in charge PS, Kamargaon 267438 10. SDO (Sadar) Golaghat 280596 11. Fire Service Golaghat 280300 12. Chief Inspector of Factory, Guwahati 0361-2453069 13. State Pollution Control Board, Guwahati 0361-2550258 14. Regional Pollution Control Board, Golaghat 280039
7.2. ONSITE EMERGENCY PREPAREDNESS PLAN Introduction
Onsite Emergency or disaster is an unpleasant sudden event of such a magnitude which may cause extensive damage to life and property, due to in-plant emergencies resulting from deficiencies in operation, maintenance, design and human error; natural calamities like flood, cyclone and earthquake; and deliberate and other acts of man like sabotage, riot, war etc. It is important for every industry to have a well-documented Emergency Plan to meet any major untoward incident or disaster. In view of NRL, having a Refinery and Marketing Terminal at Numaligarh, which involves processing of Petroleum and handling and storage of Petroleum and its products, it is necessary for the company to have an emergency management plan with clearly defined role and responsibilities of all concerned.
7.2.1 Different phases of emergency
Warning phase Emergencies /disasters are generally preceded by warnings during which preventive measures may be initiated. For example release of light hydrocarbons, uncontrollable build-up of pressure in process equipment, weather forecast give warning about formation of vapour cloud, cyclones, equipment failure, cyclones respectively. Impact Phase This is the phase when emergency /disaster actually strikes and preventive measures may hardly be taken. However, control measures to minimise the effects may be taken through a well-planned and ready-to-act disaster management plan. The duration may be from seconds to days.
Rescue and Relief Phase This is the phase when impact is almost over and efforts are concentrated on rescue and relief measures.
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Rehabilitation Phase During which measures required to put the situation back to normal as far as possible are taken. Checking the systems, estimating damages, repair of equipments and putting them again into service are taken up. Types of Emergency /Disaster –
1. Leakage of LPG/light hydrocarbons and formation of vapour cloud 2. Fire Emergency in LPG areas 3. Fire in tank farm area 4. Large oil spillage which may escape outside the boundary. 5. Major fire / explosion in unit area 6. Toxic gas release 7. Major Earthquake above 7(seven) Richter Scale
7.2.2 Causes of emergency /disaster –
Deficiency during design and construction.
Sub-standard maintenance and inspection
Improper operation
Neglecting warning phase
Natural calamity like earthquake / lightning / cyclone
Flash Strike
Sabotage
War
Hitting by aeroplane / satellite 7.2.3 Facilities Required during emergency
Details of communication facilities available during emergency and those required for an offsite emergency
Following are the communication facilities for any emergency at NRL.
a) P&T Telephones: Individual telephone connections, both in office as well as residence, to all key persons of the refinery (including all Fire & Safety personnel).
b) Intercom system for Refinery with 800 lines, covering all offices, control rooms, unit and offsite areas, electrical sub-station, stores and workshops and other strategic locations like main gate, material gate, watch towers etc.
c) Intercom system with another 500 lines connecting the quarters, offices, security main gate etc. of township.
d) Multi-channel mobile VHF station, seven nos. of base stations and VHF handsets. Range of these equipment are as follows:
(i) Base station : 25 km (ii) Mobile : 10 km (iii) Handsets : 5 km
e) Public Address system to Central Control Room with all units and fire station f) OIL COMNET g) E-mail h) ERP i) V Sat
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Fire fighting and other facilities available and those required for an offsite Emergency Following Fire protection facilities are available to combat the Emergencies and depending upon the type of Emergencies any one or combination of the facilities are applied.
a. Fire Water System b. Carbon Dioxide System c. Foam System d. First Aid Fire Fighting Equipment e. Mobile Fire Fighting Equipment f. Gas / Fire Detection and Alarm System. g. Rim Seal Fire Protection System h. High Volume Long Range Monitor i. Medium Expansion Foam Generator j. Clean Agent Flooding System
a) Fire water system
Design fire water flow rate is the sum of water rates for two major fires (= 3500 M3/hr). It based on fighting two major fires simultaneously anywhere in the refinery / NRMT complex.
System Pressure: Minimum residual pressure of 7.0 kg/ cm2 (g) at the remotest point of application in the complex.
b) Carbon Dioxide System (in CPP) The fire extinguishing system for protection of Turbo-set in housed in an enclosure by total CO2 flooding system separately for turbine and Generator of Turbo-set. The Fire detection system is separately provided in CPP control room and other areas to actuate the system of Fire protection / Fire Fighting in Turbo – set. The CO2 fire fighting system consists of two separate racks. The first one is designed for auxiliary turbine, gear compartment and the second one for Generator compartment. Each Fire Extinguishing system for Turbine / Generator consists of 11 CO2 cylinders of 66 kg each (6+5) with four pilot cylinders having Nitrogen gas etc. at higher pressure. On detection of fire the Nitrogen gas cylinder actuates and N2 gas punctures the CO2 cylinder releasing CO2 gas through nozzles of CO2 pipe line to the inside of the covered enclosure extinguishing the fire. Similar arrangement of CO2 flooding systems is provided in the Generator system. The automatic CO2 protection system is provided for the cable gallery and switch room of Captive Power Plant. (CPP).
c) Foam System Two types of systems are in use.
Semi fixed Foam system : In this system foam solution is supplied through mobile foam tender to fixed piping system connected to foam makers of tanks (vapour seal box in case of cone roof tanks).
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Fixed foam system:- In this system foam solution is supplied from a fixed foam tank through a electrical cum diesel driven pump. Fix foam system is installed in NRMT and CPP day tank. The storage capacity of NRMT foam tank is 6000 L and CPP day tank storage tank is 4920 L.
Mobile System: Mobile system includes foam producing unit mounted on wheels to supply foam through monitors to the burning surface.
d) First Aid Fire Fighting Equipment ( Fire Extinguisher)
First aid fire fighting equipment (extinguishers) provided in process units, off-sites, utilities and building etc. are of following types.
CO2 type: 6.5 kg. & 9.0 kg capacities.
DCP type: 75 Kg (Trolley Mounted) and 9 & 10 kg capacities. e) Mobile Fire Fighting Equipment
Foam cum water tenders (4 nos.) Each foam tender has one Water Tank and one Foam Tank having capacities 2600 L and 3000 L respectively for three old tenders and 3500L & 4500KL respectively for new one. The tenders are equipped with public address system, siren and other accessories. D.C.P Tender ( 1 no.) : Total capacity of two storage tanks : 2 x 2000 = 4000 kg. Total no. of Nitrogen Cylinders : 32 Capacity of each N2 cylinder : 50 litres. Monitor discharge capacity : 40 kg / sec, 25 kg/ Sec, 15 kg./Sec. Pilot cylinder (CO2) capacity : 2 Kg Mobile Oil Spill Recovery Unit - 1 No.
f) Fire detection and alarm systems: Adequate fire detection and alarm systems are provided in NRL to detect in case of fire happens.
g) Rim Seal Fire Protection System: The overall purpose of the system is to detect and extinguish the Rim seal fire over external floating roof tanks storing class “A” Petroleum products at the incipient stage and simultaneously alert the personnel at the facility so that they can respond to the incident. All class “A” Petroleum products tanks are having Rim Seal Protection system.
h) High Volume Long Range Monitor :- 82 nos of HIGH VOLUME LONG RANGE WATER CUM FOAM MONITOR are located in OMS/NRMT and different process area
i) Medium Expansion Foam Generator (MEFG):- Fixed type Medium Expansion foam generators are provided in the Class –A tank dykes for fighting fires in dyke area and to arrest vapor cloud formation from spilled volatile hydrocarbons.
j) Clean Agent Flooding System: The Central Control Room and the Wax & SRB
control rooms are equipped with Automation Clean Agent Flooding System.
Details of First Aid and Hospital services available and its adequacy:
1. A Medical Centre with one Doctor and para-medical staff runs in the plant round the clock to provide preliminary medical aid to accident victims.
2. The doctor is a specialist in occupational diseases, having the Associated Fellowship in Industrial Medicine from Central Labour Institute, Mumbai.
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3. One ambulance is available at the Medical Centre round the clock. 4. Fully equipped 30 bedded Vivekananda Kendra Hospital at Township of NRL with
specialists of various disciplines and other medical staffs are available round the clock. It is also having a burn ward.
5. If the seriousness of injury is such that medical aid of VK Hospital is felt to be inadequate, victim is referred to outside hospitals.
6. During major emergency, medical staff report to the affected site for immediate relief. 7.2.4 Responsibilities
Incident Controller:
The Incident Controller is the person from the Operation department available at site who will assume overall responsibility for all activities relating to control Disaster. He will organize operational changes, isolation of process equipments/systems, guide Fire and Safety crew, advise evacuation of injured & others and keep coordination with various functions.
Entire Refinery and Marketing Terminal has been divided into 4 groups of 3/4 personnels covering all the Units to earmark Incident Controller for a particular unit / area as shown in the Grouping & Responsibilities for Incident Controller (ann 2). All earmarked individuals of affected area shall be assembled at Emergency Site and one of them would take charge as per seriatim and others will act as per his advice. For other areas like Warehouse, Workshop and Laboratory etc. S/I (F&S) / SM (F&S) will be the Incident Controller.
Incident Controller would wear Red Helmet and Red & White jacket for easy identification. These will be available in Fire Tender.
Chief Emergency Coordinator (CEC) for onsite Emergency /Disaster:
The Chief Emergency Coordinator is the overall Incharge who would assist Incident Controller in all respects in controlling the Emergency situation. He would extend all assistance for Emergency control by coordinating with all the Coordinators as per the responsibilities outlined in the Organogram / Sub Organograms either from Incident Site in case of Major Fire or from Onsite Emergency Control Room in case of Disaster/Emergency.
The authorized Chief Emergency Coordinators are same for both Major Fire and Disaster/Emergency as shown in the Main Organograms. All the earmarked CECs as shown in the Main Organograms are required to get assembled at Emergency site or Onsite Emergency control room and the senior most individual shall take over the role of CEC in seriatim and the rest will act as per his advice.
The Chief Emergency Coordinator of Major Fire would, however, declare it as Onsite Emergency if situation demands and take position as CEC for Onsite Emergency at Onsite Emergency control room in Fire Station. Flow Chart for Responsibility of Advisory Body And Chief Emergency Coordinator is given in Figure: 7.3.
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Figure: 7.3: Organogram for Advisory & Chief Emergency Coordinator 7.2.5 Procedure for Reporting an Emergency & Communication
Reporting of Fire / Disastrous Event: Any person who notices a Fire, Smoke or a Disastrous event must immediately report to the Unit Shift I/C (Operation) and Fire station. Fire Station may be informed by any of the following means: · Telephone (Telephone Nos: 333, 444 or 3576/3573) · Public address system · VHF Channel 8 · Fire alarm system
Declaration of Onsite Emergency /Disaster Onsite Emergency /Disaster shall be declared by the following persons in seriatim, depending on availability at the incident site:
Chief Emergency Co-ordinator.
Incident Controller / Shift I/C (Operation)
SM (F&S) / Shift I/C (F&S)
Immediately after declaring, the authorized person will inform Fire Station to activate the siren as applicable. Control Room Operator on-desk or operator authorized by him during his absence will activate the applicable siren.
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Siren
Siren Code:
i. Test siren: Straight run siren for 2 minutes daily at 7 am ii. Minor fire : No siren. iii. Major fire : Wailing siren for 2 minutes. iv. Disaster : 2 minutes wailing siren thrice at gap of 1 minute v. All clear : Straight run siren for 2 minutes.
Soon after the Emergency Siren, Fire Station Control Room operator will inform Duty Officer, CISF Refinery Main Gate to inform Township Security Gate (Tel no 4100) about the location and nature of Disaster/Emergency. Also, Fire Station operator, Township Group and CISF Refinery Main Gate I/C will display the location of disaster/emergency at their respective areas. Informing Important Persons Person acting as Control room operator will inform about the Incident to the important officials through Group Communication telephone. Alternately, important persons at Refinery / Township to be informed over telephone in the following sequence. Phase I
Sl No
Officer Intercom(o) Intercom(R) Tel.(P&T)[O] Tel (P&T) [R]
1 DGM (HSE) 2154 5026 265592 266560
2 SM (F&S) 3568 5029 265527
3 GM (Ops) 2166 4429 265737
4 GM (Main.) 2142 4434 265515 266444
5 SGM (Proj) 2144 4504/4510 265416/665 266314
6 GM (Coml & L)
2140 4404 265545 266440
7 SGM (HR) 2134 6001 265411 266358
8 GM (Fin) 2136 6003/6004 265561 266404
Communication in VHF channels during Emergency /Disaster As communication will be an important aspect, the following allocation of VHF set is to be strictly followed once Disaster/emergency is declared.
Sl No Channel
No Area/Location Sl No
Channel No
Area/Location
I 1 Priority Channel VII 7 SRU/CCU
II 2 NRMT VIII 8 F&S
III 3 HCU/OM&S IX 9 Mech./Inspection
IV 4 Electrial/Planning/Civil
X 10 P&A/Township Security
V 5 CPP & Utility XI 11 Instrumentation
VI 6 CDU/VDU/DCU/MSP
XII 12 Project
For smooth functioning of Onsite Emergency activities all Coordinators / Area Coordinators will be having VHF handsets.
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7.2.6 General Guidelines for On-duty / Off-duty Employees
On-duty Personnel: In the event of Emergency /Disaster, employees assigned for specific responsibilities will immediately assume their respective roles. All other onduty employees whose names or designations are not appearing in the organograms may stay back in their respective work places and wait for further instructions from their respective Shift I/C, HODs, Engg. Services Coordinator or Chief Emergency Coordinator (CEC) and act accordingly. Off-duty personnel: On hearing siren for Emergency /Disaster, employees assigned for specific responsibilities as per the Organograms / Suborganograms will immediately report to the Refinery site and assume their roles. The employees of the affected area in particular must move to join the Emergency site. The employees of the unaffected operational units may also move to their respective units. Others will remain assembled at Township Security Gate and wait for further instruction from site and act accordingly. Persons called from site by Engineering Service Coordinator or other coordinator will move to refinery and assemble at Workshop or designated place respectively.
7.3 OCCUPATIONAL HEALTH OF THE CONTRACT AND SUB-CONTRACT WORKERS
Action Plan for the Implementation of OHS standards as per OSHAS/USEPA
For the proposed project, action plan for the implementation of OHS Standards as per OSHAS/USEPA is as shown below:
Display of Occupational Health & Safety Policy;
To comply with statutory legal compliance related to the OHC dept.;
Develop Onsite and Offsite emergency plan as Emergency Procedures to respond to Potential Emergencies;
Schedule Regular Emergency Evacuation Drills by active participation and evaluation as and when drill planned by safety department;
Six monthly periodic medical examinations of all workers working with the hazardous process;
Reporting of all incidence and accidents by Accident & Incidence Reporting System;
Investigation of all incidence and accidents by Investigation Report System;
MSDS of all chemicals of company;
Review of first aid facility;
Preparing first aider & its information at work place;
Identifying training needs of all the departments;
Awareness of Occupational Hazards & General health promotional in workers by conducting lectures for occupational health hazards in annual planner at training center;
Up-keepment of ambulance & OHC by maintaining records.
Health Checkup Plan
Regular (6 monthly) periodic medical checkup of contract and subcontract workers working at hazardous processes will be carried out as per clause 68 T of Factory’s Act.
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Action Plan in Case of Emergency
Same procedure and facilities are availed of for emergencies related to contract and subcontract workers, as in cases of regular employees.
Facilities for full time specialist services, major operation theatre, pathology laboratory, digital X ray, ECG, Doppler, Ultrasonography, Physiotherapy, In house registered pharmacy etc. are available at the main hospital at Ramagundam.
Ambulance service will be made available to the emergency patients.
Oxygen cylinders, antidotes like methylene blue, IV fluids, wide range of medicines and injections will be available at both IMC, main hospital and even in ambulances.
There will be periodic mock drills, regular first aid classes, fire audit, and audit by OHSAS 18001 group and TUV Ltd.
Onsite & Offsite emergency plans will be available. 7.4 RAPID RISK ASSESSMENT STUDY
RRA study evaluates the consequences of potential failure scenarios, assess extent of damages, based on damage criteria’s and suggest suitable measures for mitigating the Hazard. RRA involves identification of various potential hazards & credible or reasonably believable failure scenarios for various units based on their frequency of occurrence & resulting consequence. Basically two types of scenarios are identified spanning across various process facilities; Cases with high chance of occurrence but having low consequence, e.g., Instrument Tapping Failure and cases with low chance of occurrence but having high consequence, e.g., Catastrophic Rupture of Pressure Vessels / Large Hole on the outlet of Pressure Vessels. Effect zones for various outcomes of failure scenarios (Flash Fire, Jet Fire, Pool Fire, Blast overpressure, toxic release, etc.) are studied and identified in terms of distances on plot plan. Based on effect zones, measures for mitigation of the hazard/risk are suggested. Detailed Risk Analysis report is attached as Annexure-XI.
7.4.1 MAJOR OBSERVATIONS & RECOMMENDATIONS
The major credible failure scenarios for the facilities under scope of work are modeled in terms of hydrocarbon release rate, dispersion, flammability & toxic characteristics and detailed consequence analysis of the outcome is presented in this Risk Analysis (RA) report.
The summary of major observations & recommendations of RA study for the refinery expansion Project are recorded below. These recommendations are based on analysis of the consequence results due to most credible leak scenario (20 mm leak size) from various process systems under the present project.
A. CDU/VDU
It is observed from the impact contours on GIS map (Figures 1.1.1 to 1.4.4 in annexure-I) and the tabulated consequence distance as provided in the annexure-II due to various leak scenarios from the process unit that the effect zone of flash fire is by and large limited within the unit and adjoining roads surrounding the unit. Maximum flash fire distance under the considered leak scenarios is ~78 m from the leak point. Further, it is observed that the jet fire radiation intensity of 37.5 kW/m2 is extending up to ~45 m from leak point which may result in damage of the process equipment/tech. structure and adjoining pipe rack located in the northern side of the unit. No major impact is envisaged from pool fire scenario except some minor damage and health issue if action not taken
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within time. 5 psi overpressure is expected to reach ~89 from the leak point and may impact the pipe rack in the northern side of the unit.
In view of the above observations from various credible failure scenarios in the unit and their possible impact on the surrounding facilities, the following points are recommended to enhance the overall safety of the unit/plant;
a. Consider fire proofing requirement for the pipe rack structure on the northern side of the unit during the detail engg. stage. It is also suggested to ensure availability of active fire protection for the process system impacted by 37.5 kW/m2 radiation intensity.
b. Ensure adequate nos. of F&G detectors (open path/point type) are installed in the unit based on prevailing wind direction.
c. Ensure that the crude pump is located as far as possible from the unit B/L during detail engg. stage.
B. FCCU & PRU
It is observed from the impact contours on GIS map (Figures 2.1.1 to 2.6.3 in annexure-I) and the tabulated consequence distance as provided in the annexure-II due to various leak scenarios from the process unit that the effect zone of flash fire is by and large limited within the unit and doesn’t reach on the ground in some of the cases. Maximum flash fire distance under the considered leak scenarios is ~45 m from the leak point. Further, it is observed that the jet fire radiation intensity of 37.5 kW/m2 is extending up to ~47 m from leak point which may result in damage of the process equipment/tech. structure provided within the unit. No major impact is envisaged from pool fire scenario except some minor damage and health issue if action not taken within time. 5 psi overpressure is expected to reach ~51 from the leak point and may impact the tech structure and furnace.
In view of the above observations from various credible failure scenarios in the unit and their possible impact on the surrounding facilities, the following points are recommended to enhance the overall safety of the unit/plant;
a. Ensure availability of active/Passive fire protection for the process system impacted by 37.5 kW/m2 radiation intensity.
b. Ensure adequate nos. of F&G detectors (open path/point type) are installed in the unit based prevailing wind direction.
c. Ensure that SRR of FCCU Block is made blast resistant and positively pressurized.
C. MS BLOCK (NHT/CCR/ISOM)
It is observed from the impact contours on GIS map (Figures 3.1.1 to 3.5.4, 4.1.1 to 4.4.3 & 5.1.1 to 5.3.4 in annexure-I) and the tabulated consequence distance as provided in the annexure-II due to various leak scenarios from the process units that the effect zone of flash fire is extending beyond the boundary of the unit. Maximum flash fire distance under the considered leak scenarios is ~91 m from the leak point. Further, it is observed that the jet fire radiation intensity of 37.5 kW/m2 is extending up to ~57 m from leak point which may result in damage of the process equipment and pipe rack provided on the western side of the unit. No major impact is envisaged from pool fire scenario except some minor damage and health issue if action not taken within time. 5 psi overpressure is expected to reach ~112 m from the leak point and may impact the tech. structure and furnace leading to their possible damage. IDLH value of benzene, toluene and H2S is expected to reach up to ~35 m, ~630 m and ~413 m respectively from the leak point.
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In view of the above observations from various credible failure scenarios in the units and their possible impact on the surrounding facilities, the following points are recommended to enhance the overall safety of the unit/plant;
a. Ensure availability of active/Passive fire protection for the process system impacted by 37.5 kW/m2 radiation intensity.
b. Ensure adequate nos. of F&G detectors (open path/point type) are provided in the unit based on prevailing wind direction.
c. Ensure the availability of assembly point outside the IDLH value (for Toluene) from the unit at a suitable location (beyond~630 m) in upwind direction as the toxic contour is impacting the existing occupied buildings e.g. lab building, medical centre etc.
d. Relocate MM shelter to a suitable location outside the 2 psi overpressure zone distance, in case the same is an occupied place.
e. Ensure that SRR of MS Block is made blast resistant and positively pressurized. D. DHDT
It is observed from the impact contours on GIS map (Figures 6.1.1 to 6.4.4 in annexure-I) and the tabulated consequence distance as provided in the annexure-II due to various leak scenarios from the process unit that the effect zone of flash fire is extending beyond the boundary of the unit and in some cases doesn’t reach on the ground. Maximum flash fire distance under the considered leak scenarios is ~135 m from the leak point. Further, it is observed that the jet fire radiation intensity of 37.5 kW/m2 is extending up to ~54 m from leak point which may result in damage of the process equipment and tech. structure within this zone. No major impact is envisaged from pool fire scenario except some minor damage and health issue if action not taken within time. 5 psi overpressure is expected to reach ~155 m from the leak point and may impact the ware house, tech. structure and furnace leading to their possible damage. IDLH value of H2S is expected to reach up to ~552 m from the leak point and extending beyond the plant boundary limit.
As per the attached MOM in Annexure-III, the possibility of retaining the canteen facility in the proposed CA/IG area was studied. It is observed from the various impact contour that the canteen facility is not impacted by the considered failure scenario in the proposed nearby process facility however, the over pressure contour of 2 psi is passing very close to the canteen facility and since the leak point may shift during detail engg. stage hence the possibility of damage to canteen and potential workers/personnel safety hazard cannot be totally overlooked at this stage of the study. In addition, canteen will be a potential ignition source near the process area and hence may be an additional cause of concern during the operation life cycle.
In line with the above observations from various credible failure scenarios in the unit and their possible impact on the surrounding facilities, the following points are recommended to enhance the overall safety of the unit/plant;
a. Ensure availability of active fire protection for the process system impacted by 37.5 kW/m2 radiation intensity in the unit.
b. Ensure adequate nos. of F&G detectors (open path/point type) are installed in the unit based on prevailing wind direction.
c. It is suggested to ensure that the plant boundary limit is extended in the southern side to limit the H2S IDLH conc. within the plant boundary. It is further advised to ensure availability of assembly point outside the IDLH value from the unit at a suitable location (beyond~552 m) in upwind direction.
d. Explore the possibility of inventory isolation on actuation of F&G detector during engg. phase of the project to minimize inventory release in case of leakage.
e. It is advised to relocate MM shelter to a suitable location outside the 2 psi overpressure zone, in case the same is an occupied place.
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f. Ensure DHDT SRR is positively pressurized to minimize chances of HC/H2S gas ingress in the building.
g. Ensure blast resistant design for RUF/HGU/DHT SRR building. h. As proposed in the plot plan, ensure that ware house is shifted to a suitable location
outside the unit at a safe location. i. It is suggested to relocate the existing canteen to a safer location away from the
process area, as the possibility of damage to canteen building can’t be totally ignored at this stage.
However, if existing canteen is to be retained at present location then ensure that stripper reflux pump of DHDT is located at ~200 m (min.) from the canteen building during detail engg. stage. The location of canteen building should also be reviewed with respect to QRA study which is suggested to be carried out during detail engg. stage of the project. E. HGU
It is observed from the impact contours on GIS map (Figures 7.1.1 to 7.2.3 in annexure-I) and the tabulated consequence distance as provided in the annexure-II due to various leak scenarios from the process unit that the effect zone of flash fire is extending beyond the boundary of the unit. Maximum flash fire distance under the considered leak scenarios is ~61 m from the leak point. Further, it is observed that the jet fire radiation intensity of 37.5 kW/m2 is extending up to ~58 m from leak point which may result in damage of the process equipment and tech. structure falling in its range. No major impact is envisaged from pool fire scenario except some minor damage and health issue if action is not taken within time. 5 psi overpressure is expected to reach ~55 m from the leak point and may impact the HGU SRR, tech. structure and the reactor leading to their possible damage.
In line with the above observations from various credible failure scenarios in the unit and their possible impact on the surrounding facilities, the following points are recommended to enhance the overall safety of the unit/plant;
a. Ensure HGU SRR building is positively pressurized.
b. Ensure blast resistant design for HGU SRR building.
c. Ensure H2 and HC gas detectors are provided at suitable location based on prevailing wind direction at the facility.
d. As LFL contour is reaching up to the HGU and DHT substation from source of gas release hence it is suggested that subtstation building shall be kept positively pressurised.
F. SULPHUR BLOCK (SWS/ARU/SRU)
It is observed from the impact contours on GIS map (Figures 8.1.1 to 8.5.1 in annexure-I) and the tabulated consequence distance as provided in the annexure-II due to various leak scenarios from the process units that the effect zone of flash fire, pool fire and overpressure is not realized at the grade level. IDLH conc. of H2S and NH3 are realized above the grade level and the gas disperses below IDLH value before reaching on the ground in case of leakage from respective H2S and NH3 strippers.
An analysis of impact contours due to leakage from Acid Gas KO Drum, H2S Rich Sour Gas KO Drum and NH3 Rich Sour Gas KO Drum shows that IDLH conc. of H2S is reaching up to ~300 m and may extend beyond the southern boundary of the plant. The toxic cloud may reach up to a height of ~12 m before dispersing in the atmosphere below the IDLH conc. Further, IDLH conc. of NH3 is not realized in this scenario.
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In view of the above observations from various credible failure scenarios, and their possible impact on the surrounding facilities, the following points are recommended to enhance the overall safety of the unit/plant;
a. Install H2S detector at suitable locations near the H2S stripper top outlet for early detection of any toxic leakage and thereby ensuring suitable action to be taken by operator within time.
b. Install H2S detector at suitable locations near the NH3 stripper top outlet for early detection of any toxic leakage and thereby ensuring suitable action to be taken by operator within time.
c. Install H2S detector at suitable locations near the Amine regenerator top outlet for early detection of any toxic gas leakage and thereby ensuring suitable action to be taken by operator on time.
d. Install H2S detector at suitable locations near the Acid Gas KOD, H2S Rich Sour Gas KOD and NH3 Rich Sour Gas KOD for early detection of any toxic gas leakage and thereby ensuring suitable action to be taken by operator on time. This scenario shall be also covered in Onsite/Offsite disaster management plan.
e. Ensure availability of portable H2S detector with the operator/plant personnel while working near the H2S/NH3 Stripper, Acid Gas/H2S Rich Sour Gas/NH3 Rich Sour Gas KOD and Amine Regenerator.
f. Ensure availability of assembly point at a distance ~300 m from the sulphur block in upwind direction for personnel working in Slabbing & Packing & warehouse section. It is advised that personnel/workers should immediately evacuate the area and move to assembly point in case of toxic gas alarm. Assembly point to be identified and marked on the plot plan.
Further the person working in this area should be adequately trained to response suitably in case of H2S leakage and move to assembly point as identified. This scenario shall be also covered in Onsite/Offsite disaster management plan.
It should be noted that gas retaining wall won’t help much in this scenario as dispersion of gas cloud will depend on the prevailing weather condition of the day such scenario happens.
G. RUF
It is observed from the impact contours on GIS map (Figures 9.1.1 to 9.7.4 in annexure-I) and the tabulated consequence distance as provided in the annexure-II due to various leak scenarios from the process unit that the effect zone of flash fire is by and large limited near the boundary of the unit and adjoining road on the eastern side of the facility. Maximum flash fire distance under the considered leak scenarios is ~67 m from the leak point. Further, it is observed that the jet fire radiation intensity of 37.5 kW/m2 is extending up to ~47 m from leak point which may result in damage of the process equipment and tech. structure falling within this range. Impact zone of 37.5 kW/m2 fire radiation intensity due to pool fire is reaching up to ~53 m from the leak point which may result in damage of tech. structure and process equipment falling within this zone. 5 psi overpressure is expected to reach ~75 m from the leak point and may impact the pipe rack on eastern side of the unit and tech. structure inside the unit leading to their possible damage. It is to be noted that majority of equipment in this unit handles toxic H2S gas along with other hydrocarbon with H2S conc. reaching up to 20 mol% (approx).
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The maximum IDLH distance for H2S as reported by the software based on the credible leak scenario is ~714 m.
In view of the above observations from various credible leak scenarios in the unit and their possible impact, the following points are recommended to enhance the overall safety of the plant personnel and population outside the plant boundary;
a. It is suggested to minimise the potential vulnerable leakage sources like flange joints, small bore pipings in the proces system containing high quantity toxic H2S component during the design. Further explore possibilities to minimize the inventory in the vessel/equipment to the maximum extent during the design. Equipment containing high % of H2S to be located such that they are at maximum distance from plant boundary.
b. Assembly point for plant personnel/staffs to be identified to assemble in case of any emergency scenario. Assembly point to be located upwind of the facility and should be marked on the plot plan.
c. Install adequate no. of H2S gas detector at suitable locations based on prevailing wind direction for early detection of any leakage from the equipment in order to take necessary action on time by the operator.
d. Ensure continuous availability of portable H2S detector with the workers/operators while working in RUF unit.
H. DCU
It is observed from the impact contours on GIS map (Figures 10.1.1 to 10.4.3 in annexure-I) and the tabulated consequence distance as provided in the annexure-II due to various leak scenarios from the process unit that the effect zone of flash fire is by and large limited near the boundary of the unit and adjoining road on the eastern, western and southern side of the facility. Maximum flash fire distance under the considered leak scenarios is ~80 m from the leak point. Further, it is observed that the jet fire radiation intensity of 37.5 kW/m2 is extending up to ~47 m from leak point which may result in damage of the process equipment and tech. structure falling within this range. Impact zone of 37.5 kW/m2 fire radiation intensity due to pool fire is reaching up to ~53 m from the leak point which may result in damage of tech. structure and process equipment falling in its zone. 5 psi overpressure is expected to reach ~76 m from the leak point and may impact tech. structure inside the unit and damage to existing crusher house and silos on the eastern side of the unit. The maximum IDLH distance for H2S based on the credible leak scenario is ~348 m and is impacting the existing control room, buildings and offices.
In view of the above observations from various credible failure scenarios, and their possible impact on the surrounding facilities, the following points are recommended to enhance the overall safety of the unit/plant;
a. Assembly point for plant personnel/staffs to be identified and marked on the plot plan to assemble in case of any emergency scenario. Assembly point to be located upwind of the unit.
b. Review shifting of existing silo, Crusher house & MM SHED to a suitable location outide 2 psi over pressure zone in case they are occupied.
c. Install HC & H2S gas detector at suitable locations based on prevailing wind direction for early detection of any leakage from the equipment and thereby allowing operator to take necessary action on time.
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I. FCC GASOLINE HDT
It is observed from the impact contours on GIS map (Figures 11.1.1 to 11.3.3 in annexure-I) and the tabulated consequence distance as provided in the annexure-II due to various leak scenarios from the process unit that the effect zone of flash fire is extending beyond the boundary of the unit and overlapping the adjacent CDU/VDU, FCCU, FGHT & Utility substation and FCCU, FGHT & CDU/VDU SRR facilities along with the adjoining road on the northern, southern and western side of the facility. Maximum flash fire distance under the considered leak scenarios is ~84 m from the leak point. Further, it is observed that the jet fire radiation intensity of 37.5 kW/m2 is extending up to ~53 m from leak point which may result in damage of the process equipment, tech. structure and pipe rack structure (on the northern side) falling in this range. Impact zone of 37.5 kW/m2 fire radiation intensity due to pool fire is not realized in this scenario. 5 psi overpressure is expected to reach ~168 m from the leak point and may impact tech. structure, furnace inside the unit and damage to proposed FCCU, FGHT, HGU & CDU/VDU SRR buildings.
In view of the above observations from various credible failure scenarios in the unit and their possible impact on the surrounding facilities, the following points are recommended to enhance the overall safety of the unit/plant;
a. Ensure SRR CDU/VDU, SRR FCCU, SRR HGU and SRR Gasoline HDT buildings are positively pressurized.
b. Install F&G detectors based on prevailing wind direction for early detection of any leakage in the unit, so that suitable action can be taken by operator.
c. As LFL contour is reaching upto the CDU/VDU, FCCU, FGHT & Utility substation from the source of release hence it is suggested that sub-station building shall be kept positively pressurised.
J. OFFSITE TANKS/BULLETS
It is observed from the impact contours on GIS map (Figures 12.1.1 to 12.9.3 in annexure-I) and the tabulated consequence distance as provided in the annexure-II due to various leak scenarios that;
For crude oil storage tank the effect zone of flash fire is extending beyond the dyke area in the northern side of the facility and impacting the existing operator room (under Bio refinery project). Maximum flash fire distance under the considered leak scenarios is ~44 m from the tank leak point. Further, it is observed that the jet fire radiation intensity of 8 kW/m2 is extending up to ~16 m from leak point. Impact zone of 8 kW/m2 fire radiation intensity due to pool fire is reaching up to ~27 m from the leak point. 5 psi overpressure is expected to reach ~51 m from the leak point and may impact the existing operator room and MCC leading to their possible damage. 2/3 psi overpressure may lead to damage of cooling tower- bay no 6.
In view of the above observations from various credible failure scenarios in the Crude tank and their possible impact on the surrounding facilities, the following points are suggested to mitigate/minimize the hazardous impact;
a. MCC (if occupied) & Operator room to be of blast proof design and positively pressurized or shall be shifted to a safe location outside the 2 psi overpressure zone.
b. Firewall to be considered in the dyke to avoid spread of radiation from one tank to another and the same to be depicted in plot plan/provided in a note.
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c. Install F&G detectors at suitable locations based on prevailing wind direction for early detection of any leakage in the crude tank dyke area/pipe manifold area.
d. Ensure provision of active/Passive fire protection in the design for the crude tanks.
For the LPG bullets, installed along with the propylene bullets, effect zone of flash fire is extending beyond the bullet area in the eastern and southern side of the facility. Maximum flash fire distance under the considered leak scenarios is ~49 m from the bullet outlet manifold line. Further, it is observed that the jet fire radiation intensity of 8 kW/m2 is extending up to ~56 m from leak point. 5 psi overpressure is expected to reach ~52 m from the leak point. 2/3/5 psi overpressure may reach up to New Operator cabin (on eastern side) and can lead to its possible damage.
For Propylene bullets effect zone of flash fire is extending beyond the storage area in the eastern and southern side of the bullets. Maximum flash fire distance under the considered leak scenarios is ~42 m from the bullet outlet line. Further, it is observed that the jet fire radiation intensity of 8 kW/m2 is extending up to ~58 m from leak point. Radiation intensity of 37.5 kW/m2 is reaching up to ~44 m and may impact the pipe rack structure on the western side of the facility. 5 psi overpressure is expected to reach ~50 m from the leak point. 2/3/5 psi overpressure effects may reach up to New Operator cabin (on eastern side) and can lead to its possible damage.
In view of the above observations from various credible failure scenarios in the LPG and Propylene Bullet area and their possible impact on the surrounding facilities, the following points are suggested to mitigate/minimize the hazardous impact;
a. Ensure that the new operator room (as mentioned on the Overall Plot plan) at the eastern side of Propylene/LPG bullet is blast resistant or relocate the same to a safe location outside the 2 psi over pressure zone.
b. Install suitable no. of F&G detectors based on prevailing wind direction for early detection of any leakage in the Propylene/LPG bullet area/pipe manifold area.
c. Ensure fire proofing requirement for pipe rack structure on the western side of the Propylene/LPG mounded bullet.
For MS tank, effect zone of flash fire is limited within the dyke area. Maximum flash fire distance under the considered leak scenarios is ~17 m from the tank. Further, it is observed that the jet fire radiation intensity of 8 kW/m2 is extending up to ~11 m from leak point. Impact zone of 8 kW/m2 fire radiation intensity due to pool fire is reaching up to ~27 m from the leak point and can impact the proposed pipe rack at the northern side of the storage tank. 5 psi overpressure is expected to reach ~13 m from the leak point and can possibly lead to pipe rack structure damage.
In view of the above observations, the following are suggested to mitigate/minimize the hazardous impact;
a. Ensure fire proofing requirement for pipe rack structure at the northern side of the storage tank. Ensure adequate distance is maintained between the dyke and the pipe rack as per industry norms.
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b. Install adequate nos. of F&G detectors based on prevailing wind direction at the facility for early detection of any leakage in the MS Tank /pipe manifold area.
K. OFFSITE PUMPS
It is observed from the impact contours on GIS map (Figures 13.1.1 to 13.9.4 in annexure-I) and the tabulated consequence distance as provided in the annexure-II due to various leak scenarios that;
For DHDT Feed pump, the effect zone of flash fire is limited near the pump house. Maximum flash fire distance under the considered leak scenario is ~11 m from the pump. Further, it is observed that the jet fire radiation intensity of 8 kW/m2 is extending up to ~23 m from leak point. Impact zone of 8 kW/m2 fire radiation intensity due to pool fire is reaching up to ~39 m from the leak point and may result in damage of the FCC Feed tank. 5 psi overpressure is expected to reach ~12 m from the leak point.
In view of the above observations, the following are suggested to improve the safety of the unit/plant;
a. Ensure active fire protection is provided in the design for the FCC Feed tanks.
b. Install adequate nos. of F&G detectors based on prevailing wind direction at the facility for early detection of any leakage in the DHDT Feed Pump area.
For NHT Feed pump, the effect zone of flash fire is extending up to ~152 from the leak point. Further, it is observed that the jet fire radiation intensity of 8 kW/m2 is extending up to ~38 m from leak point. Impact zone due to pool fire is not realized in this scenario. Blast overpressure of 5 psi is extending up to ~179 m from the leak point and may result in damage to proposed SRR OFFSITE building.
In view of the above observations, the following are suggested to improve the safety of the unit/plant;
a. Install adequate nos. of F&G detectors based on prevailing wind directiony for early detection of any leakage in the NHT Feed Pump area.
b. Ensure SRR Offsite building is blast resistant design and positively pressurized or it is shifted to safe location outside the 2 psi overpressure zone (~203 m).
For Reformate pump, the effect zone of flash fire is extending up to ~13 from the leak point. Further, it is observed that the jet fire radiation intensity of 8 kW/m2 is extending up to ~26 m from leak point. Impact zone of 8 kW/m2 fire radiation intensity due to pool fire is reaching up to ~37 m from the leak point and may result in damage of the pipe rack provided at the southern end of the facility. Blast overpressure of 5 psi is extending up to ~12 m from the leak point and may result in damage to existing oil storage facility.
In view of the above observations, the following are suggested to improve the safety of the unit/plant;
a. Install adequate nos. of F&G detectors based on prevailing wind direction at the facility for early detection of any leakage in the Reformate Pump area.
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b. Ensure fire proofing requirement in the design for pipe rack structure at the southern side of the reformate pump.
c. Relocate the lube oil storage facility near HSD tanks outside the 2 psi over pressure zone, in case the oil storage doesn’t have any dyke and there is possibility of fire escalation spreading to nearby process area.
L. LPG GANTRY
It is observed from the impact contours on GIS map (Figures 14.1.1(a) to 14.2.3(b) in annexure-I) and the tabulated consequence distance as provided in the annexure-II due to various leak scenarios that in case of hose rupture the flash fire zone is extending up to a distance of ~142 m and Jet fire radiation intensity of 8 kW/m2 is extending up to ~63 m from leak point. Additionally, Blast overpressure of 2, 3 and 5 psi is extending up to ~197 m, 182 m and 171 m respectively from the leak point endangering various existing and new buildings on the southern and northern side of the proposed gantry location.
In view of the above observations the following are suggested to mitigate/minimize the hazardous impact on the surrounding area;
a. Relocate scale room, control room, Main. Building, store, Admin canteen building to a suitable location outside the 2 psi over pressure zone. If shifting of control room is not possible then blast resistant design for control room to be ensured.
b. Ensure existing DG Room and substation & new substation Offsite are positively pressurized or shift the same to a non hazardous location outside the flash fire zone.
c. Ensure blast resistant design for SRR Offsite building.
M. GENERAL RECOMMENDATIONS FOR THE PROPOSED PROJECT
a. Updated safe evacuation plan should be made available for the units based on revised layout as part of Disaster Management Plan and should also be implemented. Emergency exit for the new process plant area to be identified and marked on revised plot plan.
b. Access road around the new hydrocarbon facilities should be classified and restricted for vehicle movement except for handling emergency situation/crucial maintenance activities.
c. Proper checking of personnel at entry gates for inflammable materials to be ensured to avoid presence of any unidentified source of ignition entering into the plant area.
d. It is advised to carry portable H2S gas detector while working in the area near the facilities handling high conc. of H2S in the process fluid.
e. Instrument tapping, small bore tapping and process equipment should be inspected regularly during operation for integrity check. Periodic health check of equipment, instruments and maintenance of all equipment & piping are required to be ensured. Periodic calibration of instruments and testing of alarms, trips, interlocks should be given due attention under the existing operation & maintenance philosophy of the units.
f. As the work will progress in an existing facility, hence it is advised that proper barricading of the construction area to be done prior to installation of the new facilities. It is advised to develop the Barricading Philosophy for this Project and the same to be followed by owner/contractor during various stages of the project execution.
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g. It is suggested to provide H2S and HC gas detectors along with hooters and alarm along the barricade during construction phase, if there is possibility of gas ingress in the construction area from the process facility operating in the vicinity.
h. It is advised to carry out HAZID (Hazard Identification) study of the project facilities and ensure recommendations are implemented suitably.
i. SIMOPS study to be carried out for construction/commissioning stage to identify potential hidden hazards associated with the installation of the new facilities and suggest mitigating measures.
j. It is suggested to carry out QRA (Quantitative Risk Assessment) Study of the complete facilities (including new one) of the refinery during engg. stage of the Project.
k. Mock drills to be organized at organization level to ensure preparedness of the operators/personnel’s working in premises for handling any hazardous situation and safe evacuation to identified area.
l. It is suggested to ensure that any new gate provided for vehicle entry is round the clock guarded during construction and post-commissioning stages. Any entry/exit to/from the plant area under the proposed project should be properly checked and recorded in the Vehicle/Personnel Movement entry log register. In case, these new gates are to be discarded post-commissioning activities of facilities under project then dismantled boundary wall shall again be erected as per existing oil industry norms.
m. It shall be ensured and checked that all vehicles entering the plant area are provided with spark arrestors at the exhaust.
n. It is suggested that periodic (by operators) and in service inspection (by certified inspector) of the hydrocarbon tanks/bullets is carried out on regular basis.
o. It is suggested to provide suitable fire protection system as applicable and fire fighting facilities for the new project facilities as per standards.
p. It is recommended that all workers, working near the leakage area shall wear special breathing equipment while attending the leak. Workers/Personnel not wearing the special breathing equipment should immediately leave the area and move to safe location. This should be covered under SOP (Standard Operating Procedure) of the facilities.
q. It is suggested to install permanent CCTV facilities for better monitoring the new units/furnace areas from control room.
7.5 PUBLIC HEARING
Based on the Terms of Reference (TOR), granted to NRL vide letter F. No. No. J-11011/274/2015-IA II (I) dated 21st June, 2018, NRL prepared the draft EIA report and submitted an application to Pollution Control Board, Assam, for organizing public hearing for Refinery Expansion from 3.0 TO 9.0 MMTPA at Numaligarh, Assam. Public consultation for the proposed project expansion was held on 25.10.2019 at Panka Panchayat Field, Chaurabasti Village,P.O.:Kanaighat, District-Golaghat– 785699. The press notification indicating date and venue of the public hearing was issued by Pollution Control Board, Assam and the same was published in newspapers namely in two assamese daily newspaper, Dainik Janambhumi & Axomia Pratidin; dated: 14.09.2019 and in one English newspaper the Assam tribune; dated: 14.09.2019 inviting suggestions, views and objections on matters relating to environmental aspects of the proposed project and venue, date & timings of Public Hearing. Minutes of public hearing conducted on 25.10.2019 at Panka Panchayat Field, Chaurabasti Village,P.O.:Kanaighat, District-Golaghat– 785699 for refinery expansion from 3.0 to 9.0 MMTPA of M/s Numaligarh Refinery Limited, Numaligarh, Assam.
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Public Hearing was commenced at 11:00 A.M. Friday on 25.10.2019. The hearing was presided over by the Deputy Commissioner, Golaghat, Shri. Dhiren Hazarika and Shri. Pankaj Kr. Dutta, EE, Pollution Control Board, Assam welcomed the gathering. Shri. Pankaj Kr. Dutta, EE, Pollution Control Board, Assam explained the procedure of public hearing process and asked the project proponent to present the project details. Project Proponent, NRL, made a brief introduction about their project expansion. After the deliberations were made by the public, EE, Pollution Control Board, Assam summarized various issues raised by the public and invited the project proponent to offer their views on those issues. Project Proponent put forth his views on the issues raised by the Public. Minutes of Meeting (MoM) of public hearing attached as Annexure-XV along with attendance sheet & photographs.
7.5.1 PUBLIC HEARING ACTION PLAN
Sl. No.
Issues/ suggestions/ representations made during
Public Hearing
Action Plan/ replies by Project Proponent
Time Line and Financial
1. Local youths and youth woman should be given job opportunities in the project (also after commissioning of proposed project).
Large number of work force during construction activities will come from local areas. NRL is planning skill development plan for local youths not only for worker level but also for supervisory level. During operation phase, local people who are adequately qualified shall be be given preference as per GOI/State Govt. laws/policies.
Nearly 500 permanent and 3000 (1500 for construction
and 1500 for operation) temporary
employment is envisaged for the proposed project.
2. The proposed project falls under the Panka Goan, Telegram & Bishnupur villages. More development work should be carried out in these villages by the Project Proponent.
M/s. NRL has been carrying out various activities beneficial to the surrounding villages under its Corporate Social Responsibility (CSR) program in the field of Healthcare/ Medical, sanitation & drinking water facility and Community Development. The community particularly around the refinery at Numaligarh has witnessed perceptible improvement on socio-economic front on account of initiatives taken by NRL. Based on the average net profits of the company for the
M/s. NRL will continue to carry out various CSR activities in future for area development in surrounding villages of proposed project too. Also, as per Govt. directives, for proposed project, M/s. NRL will spent Rs. 36.51 Crores during next 5 years under various CER activities in the vicinity of project area.
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Sl. No.
Issues/ suggestions/ representations made during
Public Hearing
Action Plan/ replies by Project Proponent
Time Line and Financial
last three financial years, total amount to be spent on CSR during the year 2017-18 was Rs.4595.10 lakhs against which actual expenditure was Rs.4596.24 lakhs. Therefore, entire CSR budget was fully utilized. All details of CSR & sustainability activities executed during the year 2017-18 are attached as Annexure-X with EIA Report.
3. There is a problem during rainy days due to discharge of water through Pankagaon into Dhansiri river .In rainy season, people said that the paddy’s field likely to be filled by discharge of water from refinery. Project proponent should made some adequate provision or methodology to overcome the problem.
NRL explained that the main source of water in storm water drain is rain water. Water going to outside environment during rainy season increases significantly due to excess rainfall in this region. NRL explained that development & protection of Kaliyani river bank adjacent to Kaliyani block village done towards water body management. Same methodology shall be adopted to mitigate the problem.
Necessary provisions already made in CER & CSR of proposed
project.
4. One villager said that there will be more pollution after this expansion of refinery & not satisfied with given greenbelt plan in the EIA report.
M/s. NRL informed that we have done lots of plantation in 56 hectares land of existing refinery & will be done more plantation in forthcoming expansion also.
As per EMP budget, Rs.3 crore has been
allocated for Greenbelt
development. Also provision will be kept to spent CER fund for
greenbelt development.
7.6 Proposed developmental activities/ancillary facilities for Numaligarh Refinery Expansion Project (NREP) in No Development Zone (NDZ) Background of No Development Zone (NDZ) -
The Environmental Approval (EA) for setting up 3 MMTPA grass root Numaligarh Refinery was issued to IBP Ltd on 31.05.1991 by MoEFCC (EA is attached as Annexure XVI). Numaligarh Refinery Ltd. was incorporated as company in April, 1993. In the condition 4 of the said Environmental Approval, it was stated that -
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“No Development Zone must be notified before the project construction starts within a radius of 15 KM around the refinery site. Except towards the northwest where the no development zone would extend into the eastern boundary of the Kaziranga National Park”. Accordingly, MoEFCC, vide gazette notification dated 05.07.1996 notified NDZ all around the Numaligarh Refinery Premises with the following direction from the date of publication of the notification that states: “Expansion of industrial area, townships, infrastructure facilities and such other activities which could lead to pollution and congestion shall not be allowed within "No Development Zone" specified in the Appendix to this notification, except with the prior approval of the Central Government”. The Gazette Notification on NDZ has been attached with Annexure XVI. In view of the same, prior permission from MoEF&CC to be obtained to carry out any developmental activities / setting up ancillary facilities in the proposed locations in NDZ. Proposed developmental activities / ancillary facilities in NDZ: Cabinet Committee of Economic Affairs approved Numaligarh Refinery Expansion Project (NREP) on 16.01.2019 at an estimated cost of Rs. 22,594 Cr. for:
Refinery expansion from 3 MMTPA to 9MMTPA
Crude pipeline from Paradip to Numaligarh (1400 KM approx.)
Product Pipeline from Numaligarh to Siliguri (650 KM approx.)
Project Completion Period is 48 months from statutory approval. The Refinery Expansion project includes the following process units as shown below in Table 7.1:
Table 7.1: Proposed Units for NREP
The main process units, utilities & off sites, tank farms etc. under the proposed NREP will be accommodated inside the existing refinery premises. However, for some developmental activities / ancillary facilities related to NREP, it is envisaged that some additional land areas are required during project execution which includes:
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Storage Yard / Warehouse,
Fabrication Yard,
RMC Batching Plant,
Labour Camps,
Bank, Post Office (after relocating from existing refinery premises)
Details of Proposed Land Plots: For the above purposes, land parcel of different sizes in the nearby areas were identified in 11 locations all around the existing refinery premises (location map given below as Figure-1) from interested parties. Forest Department, Govt. of Assam was approached for their clearance for these plots. Forest Department, Govt. of Assam, after due deliberations and discussions held with representatives of NGOs, WWF, Wildlife Warden and local press dated 03.06.2019 have cleared 9 out of 11 plots suitable for the intended purposes. Some of them are suitable for any project activities and a few are suitable with certain conditions (Minute of Meeting of Forest Department, Govt. of Assam dated 03.06.2019 on the clearance/ recommendations of the plots is attached as Annexure XVI). Plot Nos. 2 and 5 was rejected by Forest Department, Govt. of Assam due to elephant movements in these areas. Site Photographs of Proposed additional land plots are given in Annexure XVIII.
Figure-7.4: Location map of 11 plots around NRL Refinery
As these plots of lands are falling in the No Development Zone (NDZ) notified by MoEFCC dated 05.07.1996, Forest Department, Govt. of Assam advised NRL for obtaining prior permission from MoEFCC to carry out any activities as per the condition laid down for the said NDZ notification.
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Finally, out of the 9 plots cleared by Forest Department, Govt. of Assam, 8 plots of land were shortlisted by NRL. Proposed Land Details of these 8 plots are shown below in Table-7.2:
Table – 7.2: Details of Proposed Land of 8 plots:
S.No. Plot No. Tentative Location Tentative GPS
coordinates Proposed land use
1 1
200M inside RHS of NH-39 Bypass from Telgaram towards Golaghat (in front of NRL’s tanker parking area) - 135 Bigha (18 ha approx.)
Storage Yard, Fabrication Yard, Parking Area, 400KV/220KV Grid Sub-station, Bank, Post Office, ESI Hospital, Park with Sculpture etc. during expansion project implementation. Later on in this plot, power & utilities plants, petrochemical plant will be put up for which EC will be separately applied
Total Land: 180 ha. (approx.)
The size of the land pertaining to plot no. 10 (Tea garden) suffices all the requirements of the project. However, due to matters beyond control of NRL, it may not be possible to acquire the entire plot. Hence, prior permission for utilization of other 7 plots may also be sought to meet the project requirement. It may be noted that in all the 8 plots there are no habitation and thereby there is no involvement of resettlement and rehabilitation if these plots are acquired for the proposed purposes.
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The location map of 11 plots superimposed in NDZ map is shown below (as Figure-7.5) wherein Plot No. 2 & 5 are not recommended by Forest Department, Govt. of Assam and NRL has not proposed any activity in Plot No. 11 (Tea garden) due to difficulty in acquisition.
Figure-7.5: Location Map of 11 Plots Superimposed in NDZ Map
Prior permission to carry out developmental activities / ancillary facilities in NDZ: NRL, vide letter ref: Nil, dated 27.06.19 (attached as Annexure XVI), requested MoEF&CC seeking prior permission to carry out the activities as mentioned in Table-2 above as per the proposed land use details so that NRL can go ahead in acquiring the lands as per permission to be obtained from MoEF&CC. Accordingly, MoEF&CC has convened a meeting with NRL on 09.01.2020 at Delhi. NRL was requested to make a presentation on details of ToR granted to the proposed project, location map covering the NDZ area, Kaziranga National Park, details of court cases/judgments related to Numaligarh Refinery /development in NDZ and details of activities permitted in NDZ area. Accordingly, NRL has given a presentation to the Ministry on 09.01.2020. After detailed deliberations and discussions, Ministry desired that project proponent shall include the details of activities in the proposed plots within NDZ and its environmental impacts as a separate chapter in the EIA report. The ministry would consider the proposal, after the recommendation of EAC as per the EIA notification, 2006 and the Committee can also consider the project in accordance with the Ministry’s Notification S.O. 481 (E) dated 5th July, 1996 regarding No Development Zone. The Record of Discussion drawn after due deliberation and discussions has been attached as Annexure XVI.
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Details of proposed utility/resource requirement for Additional land acquired in
NDZ area for post NREP:
a. Water requirement and source:
The activities planned on the plots do require some water primarily for human consumption, like day to day drinking, bathing, sanitary purposes in workers’ colony/camps and very small amount of water is required for hydro testing of pipes in fabrication sheds. This water will be supplied from existing refinery water sources through underground pipelines in the contiguous plots. Other plots which are at a distance from refinery, water will be supplied through mobile water tankers transported from existing water treatment plants located inside refinery premises.
b. Power requirement and source:
Bulk power requirements will be primarily in fabrication sheds and RMC Batching Plants, which is estimated to be around max. 5MW peak load. In other purposes requirement of power will be very minimal to the tune of max. 2-3MW. Power to the contiguous plots shall be arranged from existing captive power sources i.e. Gas Turbines and Steam Turbines through underground cables. There is a plan to hook up captive power system with grid system of AEGCL (Assam Electricity Grid Corporation Ltd.) in near future.
Power requirement for other plots will be managed through power purchase from APDCL (Assam Power Distribution Corporation Ltd.). Silent DG sets shall be provided as back up to meet the power requirement during load shedding.
c. Waste water generation and its management for labourers:
It is planned to set up max. 4 nos. workers camps with about 500 workers accommodation in each camp. Each camp will generate about 20 KL of sanitary waste water per day which will be collected in a centralised tank and shall be transferred to STP located inside its nearby township by mobile vacuum trucks for treatment. d. Present land use for the proposed land parcels:
All the plots of land under consideration are mostly being used for tea cultivation, while lesser portion of lands are barren. There will be no replacement and rehabilitation of families from any of these plots except in the plot near Raw Water Intake. In that plot there will be displacement of two families with homestead land and they will be allotted one plot of land each for construction of their dwelling houses in a nearby village.
e. Movement of ODC trucks to the fabrication site and road conditions:
There is no plan for movement of any ODC trucks to these plots of land except for only normal trucks, tankers and trailers. For this purpose suitable motorable approach roads shall be constructed with pitched driveway from existing state/national highways. In case requirement arises in future for ODC fabrication near project site, suitable plot shall be selected near the highways so that ODC movement is smooth & convenient from such site to the project site.
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Mitigation Measures for Activities to be carried out in Proposed Plots: There will be no major impact on air, water and land environment while carrying out the above non process activities in the proposed locations in NDZ. However, to contain even the minimal impact like generation of dusts, noise etc. envisaged due to above activities, following mitigation measures is proposed:
1. Barricading up to suitable height and material shall be done to contain noise,
suppression of dust/suspended particles in RMC batching plant, fabrication yard, etc.
2. Pitching/concreting of roads for suppression of dusts etc. due to heavy vehicular
movement.
3. Proper drinking water, sanitation and sewage management shall be considered for
labour camps or locations where deployment of workers is large.
4. NRL’s HSE Policy shall be strictly adhered to regarding operation of batching plant and
fabrication yards.
5. All statutory guidelines will be followed for fabrication/ construction/ storage activities.
7.7 Court Cases/litigations with NRL
No Court Cases pending against the project and/or land in which the expansion project is proposed to be set up. However, the following cases related to NRL in connection to NDZ outside the boundary wall of Expansion project may be referred to for information:
1. Cases related to Township Expansion:
a) NRL started township extension project at a location of about 4KM aerial distance from Refinery boundary after obtaining EC from SEIAA, Assam (Being Category-B project) and CTE from PCBA in 2013. One Sri Rohit Choudhury filed MA-787/2015 in NGT alleging some violations. NGT passed its order on 24.08.2016 which is attached as Annexure-XVII. b) Aggrieved with not giving proper heed to the factual merits, NRL applied in NGT for review of its order dated 24.08.2016 through RA-29/2016. NGT disposed of the RA-29/2016 without any direction on 03.08.2018. Copy of the order is attached as Annexure-XVII. c) NRL appealed in Supreme Court against the NGT Order dated 24.08.2016. But Supreme Court did not find merit in the appeal and did not admit the case. Supreme Court order is attached as Annexure-XVII. d) Deputy Commissioner, Golaghat took action to demolish remaining portion of boundary wall of the township extension as NGT directive after disposed of NRL’s Review Application against which NRL approached Guwahati High Court vide WP 5895 of 2018. Guwahati High Court has asked to maintain status quo and the case is pending. High Court orders dated 03.09.2019 is attached as Annexure-XVII. e) NRL appealed Guwahati High Court vide WP 6093 of 2019 to bring clarity on the township extension about elephant corridor, prior permission in NDZ, Deopahar PRF, etc. and praying to allow to start construction of the quarters in the township extension in the remaining 8 ha area out of 9 ha area acquired originally. The case is pending in Guwahati High Court.
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2. Case related to Bio-Refinery: The EC for this project was issued by MoEF&CC in Nov, 2017. One Sri Rohit Choudhury filed 11 of 20198 NGT alleging some violations/allegations. Case is pending in NGT for hearing.
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CHAPTER – 8
PROJECT BENEFITS
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8.0 INTRODUCTION
NRL has taken many initiatives after establishing refinery. Some of the major initiatives with direct and indirect benefits to the surrounding people are mentioned below. However, the proposed capacity expansion will add more benefits to the present schemes carried out by NRL. The proposed project of NRL would improve the social and economic environment in the vicinity and meets the fuel needs of the state as well as within the country.
8.1 METHODOLOGY OF IDENTIFYING SCHEMES
Suitable community development schemes would be identified in consultation with the nearby Panchayats, Government agencies and local NGOs. The recommended major schemes were evaluated by an internal committee of Corporate Social Responsibility group. The review of the socioeconomic suitability of these schemes was examined by an external expert.
Numaligarh Refinery Limited plays an indispensible role in the lives of innumerable people. Ever since it’s commissioning in 1999, NRL has been contributing to the economic growth of the North East region in the country. NRL has directly and indirectly induced growth and development into the economic growth of the state. Moreover, NRL has been contributing to the welfare of the neighboring villages through different means. The main objectives of NRL community development schemes include extending medical care to the poor, giving educational assistance to students, economically empowering the poor and developing infrastructural facilities for the public good.
8.2 CONTRIBUTION TO NATIONAL ENERGY SECURITY
India has been witnessing rapid urban and industrial growth in the past two decades, and with the country’s current liberalization policy, this growth is expected to accelerate further. As a consequence of the rapid rate of industrialization in India, petroleum products needs are increasing at an equally rapid rate and the supply-demand gap is widening and steps must be taken to address this issue. The proposed project will result in the supply of increased volumes of petroleum products to meet the energy security of the country.
8.3 SOCIO-ECONOMIC DEVELOPMENT
The proposed project would generate some direct and indirect employment opportunities during construction and operation phases, which will benefit the local economy. Improvement in the overall socio-economic status of the vicinity of project area, in the thematic areas of health, education, livelihood and infrastructure is expected. Social Development is an important component of any project taken by NRL. An understanding of society is essential in helping people meet their social needs - food, water, shelter, health, knowledge, skills and physical and emotional security. How people define such needs and the priority and value they give to them varies tremendously, not only from one country to another, but between different groups of people. A starting point for establishing appropriate and sustainable social services should be an analysis of how individuals, families and communities organise themselves in society to meet their needs as they define them. These facts have been already been noticed by NRL and same are being focused while carrying out the development programmes in nearby areas.
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CHAPTER 9
ENVIRONMENT COST BENEFIT ANALYSIS
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9.0 ENVIRONMENTAL COST BENEFIT ANALYSIS
Environmental cost-benefit analysis, or CBA, refers to the economic appraisal of policies and projects that have the deliberate aim of improving the provision of environmental services or actions that might affect (sometimes adversely) the environment as an indirect consequence. Vital advances have arisen in response to the challenges that environmental problems and environmental policy pose for CBA. It also compares the monetary value of benefits with the monetary value of costs in order to evaluate and prioritize issues. The effect of time (i.e. the time it takes for the benefits of a change to repay its costs) is taken into consideration by calculating a payback period. In its simple form, CBA uses only financial costs and financial
benefits.
9.1 PROJECT FINANCIAL DETAILS
The estimated capital cost for the Expansion project is Rs. 22,594.00 Crores.
9.2 PROJECT COSTS
The allocation of the project cost will be approved by NRL. This cost includes the following:
(i) Civil Works, (ii) Construction, (iii) Equipment and its installation, and (iv) Consulting engineering design and supervision.
Besides that, the abatement cost also should take into consideration in order to reduce the pollution which will harm the community and human beings.
9.3 MONITORING AND REPORTING COSTS
During the construction period, the monitoring process should be required in order to make sure that the construction of the project related activities is according to the schedule. The minor cost of the equipment required for monitoring environmental impacts is also included in the project cost.
9.4 NON-QUANTIFIED ENVIRONMENTAL IMPACTS
The construction of the NRL also will produce some non quantified environmental impacts from project development, increased other development off-site, including noise pollution, air pollution, and surface water pollution, but these are considered marginal, and additional economic assessment is not required. Therefore, as mentioned earlier, the abatement cost is included in the project cost.
Besides the tangible benefits, the project has got number of intangible benefits like, socio economic benefits to the local people and the region, generation of revenue for the state apart from growth through industrialization. The proposed project will result in increased volume of petroleum products to meet the energy security of nation.
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CHAPTER – 10
ENVIRONMENTAL MANAGEMENT PLAN
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10.1 ENVIRONMENT MANAGEMENT PLAN
Environmental Management Plan (EMP) is planning and implementation of various pollution abatement measures for any proposed project. The EMP lists out all these measures not only for the operational phase of the plant but also for the construction phase and planning phase. The EMP is prepared keeping in view all possible strategies oriented towards the impact minimisation. The EMP for the proposed project is divided into three phases i.e. Planning, Construction and Operational phase. The planning phase lists out the control strategies to be adopted during the design considerations. The construction and operational phase detail out the control/abatement measures to be adopted during these phases.
10.1.1 Environmental Management at Existing Refinery
As on today, all conditions stipulated by MoEFCCCC and SPCB, Assam are implemented and compliance statement of all environmental clearances is submitted to RO-MoEFCCCC.
The basic principles adopted for the environmental management is given below:
a. All emissions are released below the stipulated limits. b. There will be minimal additional air emissions. c. Flare tip is designed to ensure smokeless conditions. d. Ambient air quality is monitored regularly. e. All noise generating equipment are identified and adequate safety measures are in
place. f. Audiometric tests and ambient noise monitoring is carried out at regular intervals. g. Periodic meetings are carried out for discussion of minimization of wastes generated
within refinery, their collection and disposal. h. Social welfare schemes are implemented towards corporate social responsibility. i. Extensive tree plantation is carried out near refinery and township region.
10.2 ENVIRONMENTAL MANAGEMENT AT PLANNING PHASE 10.2.1 Design Considerations
Government of India has made many legislations/rules for the protection and improvement of environment in India. Various environmental legislations/rules applicable to the proposed project facilities are given in Table 10.1.
Table 10.1 Indian Environmental Legislation/Rules
Legal Instrument Relevant articles/provisions
The Environment (Protection)
Act, 1986, amended up to 1991
Section 7: Not to allow emission or discharge of
environmental pollutants in excess of prescribed
standards
Section 8: Handling of Hazardous substances
Section 10: Power of entry and inspection
Section 11: Power to take samples
Section 15 – 19: Penalties and procedures
Environment (Protection) Rules,
1986 (Amendments in 1999,
Rule 3: Standards for emissions or discharge of
environmental pollutants
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Legal Instrument Relevant articles/provisions
2001, 2002, 2002, 2003, 2004,
March 2008 )
Rule 5: Prohibition and restriction on the location of
industries and the carrying on process and
operations in different areas
Rule 13: Prohibition and restriction on the handling
MoEFCC notification dated Section 5: Responsibility of producer
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Legal Instrument Relevant articles/provisions
March 23, 2016 vide circular no
G.S.R 338(E) for e-waste
(Management) Rules
MoEFCC notification dated April
4, 2016 vide circular no G.S.R
338(E) for Hazardous and Other
Wastes (Management and
Transboundary Movement)
Rules, 2016
Section 4: Responsibilities of the occupier for
management of hazardous and other wastes
Section 6: Grant of authorisation for managing
hazardous and other wastes
Section 8: Storage of hazardous and other wastes
Section 9: Utilisation of hazardous and other wastes
MoEFCC notification dated April
8, 2016 vide circular no G.S.R
1357(E) for Solid Waste
Management Rules, 2016 Solid
Waste Management Rules,
2016
Section 4: Duities of waste generators
Proposed project shall be designed taking into account the above-referred legislations/rules and as per the directives of Environmental Clearance documents. Besides this the proposed effluent and emission standards will also be compiled for this Project.
During the design stage, all piping and instrumentation diagrams and plant layout shall be reviewed as a part of HAZOP/HAZAN studies to assess the risks involved. The specific control measures related to gaseous emissions, liquid effluent discharges, noise generation, solid wastes disposal etc. are described below.
10.2.2 Air Environment
The gaseous emissions from the refinery complex will be controlled to meet all the relevant standards stipulated by the regulatory authorities. Standards applicable to this refinery project can be classified into three categories:
Emission Standards.
VOC Emission and Control.
Fugitive emission and control. The standards and compliance to the above standards are given below:
Emission Standards
There are about 12 numbers of major stacks in the existing refinery. Air emission from each stack of the proposed project is given in Table 4.6 of chapter 4 and is complied with their applicable standards. Some of the measures for stack emission and height of stacks are as follows:
NRL has installed low NOx burners in all the stacks and adequate stack heights were
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maintained.
The heights of various stacks will be determined taking into consideration the "Guidelines for Minimum Stack Height" as per notification by MoEFCC dated 19th May 1993, which fixes the minimum stack height based on emission of Sulphur Dioxide.
This is as given below:
H=14(Q) 0.3
Where, H = Stack Height in m, Q = Sulphur Dioxide emission in kg/hr.
If, the Pollution Control Board specifies any minimum stack height, the higher of the two will be selected. The proposed project is designed in such a way that the total emissions from the refinery complex will meet all the applicable standards/stipulations.
VOC Emission and Control In petroleum complexes, the release of volatile organic compounds (VOCs) to air depends on the products handled at the plant and may include acetaldehyde, acetone, benzene, toluene, and xylene. VOC emissions are mostly fugitive and depend upon the production processes, material handling and effluent treatment procedures, equipment maintenance, and climatic conditions. These fugitive emissions originate from the static and dynamic compressor joints and seals used in flanges, pumps, valve packings and connection joints to the atmosphere like sampling, relief valves, etc. In order to minimize the fugitive emissions, the following measures will be taken: - Minimum number of flanges, valves, etc. - High grade gasket material for packing - Usage of state-of-the-art low leakage valves preferably with bellow seals - Usage of pumps with mechanical seals - Provisions of floating roof storage tanks - Provisions of double seal in some of storage tanks - Provision of seals in the drains and manholes - A VOC recovery system in ETP is implemented. Odour Control As a part of gaseous emissions control, proper odour control is also required. The odour from the complex originates due to fugitive emissions or leakages. Therefore, the design measures suggested as a part of controlling fugitive emissions are also applicable to odour control as well. In addition to aforementioned measures, green belts are also used to form a surface capable of absorbing and forming sinks for odorous gases. Leaves with their vast area in a tree crown, sorbs pollutants on their surface, thus effectively reduce their concentrations in the ambient air and source emissions. While making choice of plant species for green belts, weightage has to be given to the natural factor of bio-climate. Odour can be reduced by developing green belt.
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Fugitive Emission Fugitive emission of Hydrocarbons is mostly from storage tanks. The regular fugitive emission survey is being carried out with the help of GMI Gaskoseeker as part of monitoring and control of fugitive emission. The GMI survey has been carried out in all gas/vapour valves, light liquid valves, hydrogen valves, light liquid pump seals, hydrocarbon compressor seals, hydrogen compressor seals, drains, tankages, furnaces etc. It is being practiced in all the Process Units, Tankage areas, Marketing Terminals, ETP and other important locations. As a step towards control and minimizing fugitive emission, NRL has also implemented a VOC recovery system as per MoEFCCCC Notification 2006 in ETP. A meticulously planned and developed Green Belt of around 100 meter width around the Refinery and around 25 meter width around the NRMT has been developed and has grown into a rich foliage, rendering a perfectly natural barrier to the industrial noise, minor air pollutants from reaching the immediate surroundings, both human population, rich flora & fauna and also help in mitigating the effects of fugitive emission in all around.
10.2.3 Noise Environment
The selection of additional equipment will be made with specification of low noise levels as a major consideration. The design will be undertaken with the aim of minimizing noise at source. Noise suppression measures such as enclosures and buffers will be used to limit noise levels in areas frequented by personnel to below 85 dB(A). Comprehensive measures for noise control, at the design stage, shall be followed in terms of: - Noise level specification of various rotating equipment as per Occupational Safety and
Health Association (OSHA) standards.
- Equipment layout considering segregation of high noise generating sources. - Erecting suitable enclosures, if required, to minimize the impact of high noise
generating sources. - Sizing the flare lines with low Mach number to have lower noise levels. - Development of Green belt of appropriate width all around the rrefinery complex
towards noise attenuation
10.2.4 Water Environment
At the design stage, there are several measures proposed to be incorporated in the process so as to minimise the impact on water environment during operational phase on the surrounding water bodies. Some of these measures are described in subsequent sections.
Water treatment within refinery complex for various purposes shall include the following techniques which is efficient and provides small quantity of discharge.
Raw water treatment Plant:
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Water requirement for the project is proposed to be draw from the existing source i.e. Dhansiri river. Total water requirement for NRL refinery (post-NREP) is 2508 m3/hr. Water withdrawal permission received from State Govt is granted.
Effluent treatment Plant: The effluents form the proposed project will be routed to the new Effluent Treatment Plant (300 m3/hr) to treat the additional wastewater generated due to the proposed plant. Effluent discharged routed to Dhansiri River.
10.2.5 Land Environment
During the design stage itself due care will be taken to select the process technologies generating minimum solid wastes so that their handling, treatment and disposal do not cause any serious impact on the existing land environment. Also, efforts will be made to recycle some of the spent catalysts by way of returning to the original supplier for reprocessing. The solid wastes management plan proposed is briefly described below. The provisions of Hazardous Wastes (Management and Handling) Rules, 2008, amended up to 2009 will be complied with. There are primarily two types of solid wastes generated from the proposed project:
1. Spent Catalysts 2. General Solid Wastes
Spent Catalysts
Patented catalysts are used in various process units. Spent catalysts will be disposed off through authorised recyclers.
Solid Wastes
Solid wastes generated will be disposed off as per existing practices.
Oily sludge
The oil will be extracted from the oily sludge and the remaining part disposed off through bio-remediation by applying oil zapper/or selling to CPCB approved recyclers. Oily sludge generated from ETP shall be disposed off in the Secured Landfill Facility as per prevailing practices.
The NRL has a well maintained waste management system where all solid waste and oily
sludge waste have been taken care properly. A solid waste disposal site is available inside the refinery complex for proper segregation and disposal of various solid wastes.
10.3 CONSTRUCTION PHASE
The overall impact of the pollution on the environment during construction phase is localised in nature and is for a short period at all sites. In order to develop effective mitigation plan, it is important to conceive the specific activities during construction phase causing environmental impact. All the construction activities are undertaken, controlled and managed by EPC contractor with the guidance of PMC consultant and NRL. It is mandatory for EPC contractor to
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develop site/project specific HSE Policy, HSE Plan, and HSE management system for complete EPC phase of the project. The various HSE requirements/Deliverables that will be developed is given in Table 10.2.
Table 10.2 Elements of HSE Management System during EPC Phase
Sl. No. Element of HSE Management
System HSE Requirements/Deliverables
1.0 Preservation Development of Principal Environmental Flow Diagram and Environmental Balance
2.0 Progress HSE Measurement Requirements
3.0 Durable Development Implementation Plan for Environmental Management Plan indicated in Final EIA report (Approved by MoEFCC)
Implementation of findings of Risk Assessment Study
6.0 Continuous Improvement
6.1 HSE Close out Report
6.2 HSE Audit Requirements
6.3 Project HSE Review
7.0 Formation and Sensibilisation HSE Training Requirements
8.0 Information and Communication
8.1 HSE Communication Requirements
8.2 HSE Resources
8.3 Competency Requirements
8.4 HSE Documentation
8.5 HSE Records
8.6 HSE Procedures
9.0 Responsibilities HSE Management System Requirements
HSE Policy of NRL NRL is having well documented Health, Safety and Environment Policy for the workers and employees who are working in the refinery. The Health, Safety and Environment (HSE) Policy is given in Figure 10.1.
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Figure 10.1: Health, Safety and Environment (HSE) Policy of NRL
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10.3.1 Air Quality
Presently ambient air quality is monitored at one number automatic monitoring station in the refinery complex as per NAAQS 2009 standard. As mentioned in Chapter-4, there will be minimal increase in particulate matter levels in ambient air during construction of proposed activities. The proposed activities are to be within the existing refinery complex. A systematic additional development of greenbelt will be recommended within the refinery complex under this EMP. This additional green belt will further reduce the local concentrations of particulate matter. All the major dust generation construction activities will be regularly planned and controlled under the supervision of HSE Manager. As indicated in Table 10.1 of Sl. No. 8.5 records will be documented for the ambient air quality monitored before and during all dust generation construction activities. Necessary control and management will be taken at site by HSE manager as appropriate. Also as indicated in Table 10.1 of Sl. No. 6.3, all such records will be reviewed for corrective and preventive action.
10.3.2 Noise Quality
As explained above the existing green belt within the existing refinery complex is adequate to attenuate noise to significant levels. Also ambient noise levels measured at various locations within refinery complex are found within limits. All the major noise generation construction activities will be regularly planned and controlled under the supervision of HSE Manager. As indicated in Table 10.1, Sl. No. 8.5 records will be documented for the ambient noise monitored before and during all noise generation construction activities. Necessary control and management will be taken at site by HSE manager as appropriate. Also as indicated in Table 10.1 of Sl. No. 6.3, all such records will be reviewed for corrective and preventive action.
10.3.3 Water Quality
The existing drinking and sanitation facilities at the refinery complex will be extended to the construction workforce. No additional measures are suggested. All the major water consumption and wastewater generation construction activities will be regularly planned and controlled under the supervision of HSE Department. As indicated in Table 10.1 of Sl. No. 8.5 records will be documented for the total water supplied by tankers and wastage of the same shall be monitored before and during all such construction activities. Necessary control and management will be taken at site by HSE manager as appropriate. Also as indicated in Table 10.1 of Sl. No. 6.3, all such records will be reviewed for corrective and preventive action.
10.3.4 Socio-economic
The presence of highly skilled labour force around the plant area will ensure the availability of labour at construction site. This will lead to non-requirement of any kind of temporary housing near the construction site but may put stress in the existing transport system and traffic density. A proper traffic and man power management may reduce this problem in a substantial way. The health records of all construction force will be collected and will be supervised by medical in-charge specially appointed by EPC Contractor.
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10.3.5 Biological Environment
As discussed in section 6.3.1, a systematic additional greenbelt development plan within the refinery complex is recommended under this EMP. This additional green belt will further reduce the local concentrations of particulate matter. Also this will protect from soil erosion and conserve the local biodiversity. A summary of impacts, mitigation measures and proper environmental management plan for post expansion phase of NRL refinery during construction phase is given in Table 10.3.
Table 10.3 Summary of Impacts and Environmental Management Plan (Construction Phase)
Sl. No.
Environmental Component
Activity/Aspect Impacts Mitigation Measures
Element of Environmental
Management Plan
1 Air Environment Foundation work
Digging, leveling work
Structural works
Very less conventional pollutants will be released during this phase due to construction works, vehicle exhausts which will not cross the specified limits because low value of background levels
Dust pollution will be suppressed using water sprinklers
Periodic maintenance of machinery, heavy vehicles
Regular monitoring of levels of conventional pollutants as per PCB, Assam guidelines
2 Water Environment
Maintenance of drainage and water supply network for Sanitation and waste water generation
Limited impact on surrounding water bodies/aquatic ecosystems/ground water due to soil erosion, leaching, waste water generation
Water requirement through existing raw water source
Proper sanitation
Waste water treatment through existing treatment plant
Provision for appropriate sanitary facility for construction workers
3 Land Environment
Land use change due to drilling, excavating
Land pollution of small magnitude due to solid waste generation
Overburden and construction waste will also be produced
Management of solid waste
Management of excavated solid and construction waste
Composting bio-degradable waste and disposal of non-bio-degradable waste in land fills
Construction waste will be used for back filling
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Sl. No.
Environmental Component
Activity/Aspect Impacts Mitigation Measures
Element of Environmental
Management Plan
4 Noise Environment
Noise from construction, heavy vehicle movements
Noise level will be more but within the permissible limits
Noise protection measures
Using ear muffs for workers while construction
Rules & regulations of Noise Standards will be followed
Greenbelt development for attenuating the noise levels
5 Socio-economic Environment
Rehabilitation & resettlement
More benefits to the local people
Employment opportunities to local skilled and unskilled people
Development of infrastructure, communications facility, drinking water supply, health etc.
Social and cultural development
Facilitation of hospital, school, club, stadium etc.
Regular health camp surrounding the plant
Implementation of NRL CSR Policy
6 Biological Environment
Land use change
Impact on flora and fauna will be minimal
Less impact on marine ecosystem
Creation of landscape with plantation
Conservation of biodiversity
Biological diversity Act and MoEFCC guidelines for conservation of species will be followed
Greenbelt development with more fruit bearing trees, avenue plantation etc. will be made
10.4 OPERATION PHASE
All the operation activities are undertaken, controlled and managed by Engineering, Procurement & Construction (EPC) contractor with the guidance of Project Management Consultant (PMC) before handing over to NRL. It is mandatory for EPC contractor to develop site/project specific HSE Policy, HSE Plan, HSE management system for complete commissioning and operational phases of the project. The various HSE requirements that will be carried out by the HSE team of NRL are listed below:
a. Review and assessment of adequacy of measures implemented as per Environmental
Management Plan, Disaster Management Plan (Onsite and Offsite) and Emergency Preparedness Plan and all other measures suggested by Statutory Authorities.
b. Monitoring of Environmental balance and its parameters and its compliance to requirements specified as per statutory requirements/design requirements.
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c. Mock Safety drills to assess the readiness of the control of major accidents and
hazards. d. Conducting HSE audits and Reviews.
The environmental management plan during the operational phase of the plant shall therefore be directed towards the following:
o Ensuring the operation of various process units as per specified operating guidelines/operating manuals.
o Strict adherence to maintenance schedule for various machinery/equipment. o Good Housekeeping practices. o Post project environmental monitoring.
The following subsections discuss in brief the management plan for individual components of environment.
10.4.1 AIR ENVIRONMENT
10.4.1.1 In-plant Control Measures
Some of the important operational measures which can reduce the impact on air environment are as follows: To control fugitive emissions from the Hydrocarbon processing areas, the valves,
flanges pumps and compressor seals, the gasket materials etc. should be maintained on periodical basis.
Use of low NOx burners Use of various relevant standards for design of revamp/new facilities. Regular monitoring of SO2,NOx, CO & PM from stacks Flaring of hydrocarbons should be avoided to the extent possible. Flare tip shall be
designed to ensure smokeless conditions. Also provision for steam injection will be considered.
10.4.1.2 Fugitive Emission Control
To prevent the hydrocarbon loss, regular monitoring of passing valves and fugitive emissions are carried out throughout the year by NRL as per MoEFCCCC Notification 2008. Acoustic leak survey of all the major valves leading to the flare header was carried out resulting minimum hydrocarbon loss.
As a step towards monitoring and control of Fugitive Emission and VOC recovery of the stored volatile liquids, installation of double seal in few IFRT/EFRT tanks located inside refinery & NRMT is completed. The same will also be followed for the proposed project.
10.4.2 Noise Environment As the plant is going to be operational on a 24-hour basis, noise considerations are very important. All equipments will be specified to meet 85 dB (A) at 1 m distance. As incorporated during the design stage, the plant areas where noise levels are high enough to cause operations some adverse impacts, the usage of ear plugs or ear muffs shall be strictly enforced. The exposure of employees working in the noisy area shall be monitored regularly to ensure compliance with the OSHA requirements. Regular audiometry test for employees of NRL are regularly conducted at NRL hospital of refinery. The various results are recorded to find out any possible ill effects of any high noise
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levels, if any. Any possible hearing loss (mild, conducive) is recorded and analyzed with further instructions to employee.
10.4.3 Water Environment Water conservation is one of the policies adopted at NRL. Additional raw water requirement for the new project is 1820 m3/hr. Treated effluent from ETP will be recycled/reused and the same will be reused inside the refinery. Domestic sewage shall be treated in Sewage Treatment Plant and the treated water shall be used for gardening purpose. An adequate Oil catchers/oil trap has been provided at all possible locations in rain/storm water drainage system inside the refinery. Further, another new scheme of storm water recycling as a cooling tower makeup is under implementation.
10.4.4 Socio-economic Environment
The local population is to be helped to take up the opportunities afforded by the increased economic activities in the area.
Efforts shall be made to promote harmony with the local population and further consolidate their positive perceptions of industrialization by engaging in socially-friendly activities such as building hospitals, educational and technical training institutes, etc. in due course of time, by coordinating with the present and future industries of the area.
The NRL has always been in the forefront in following the principles of Corporate Social Responsibilities. It has been contributing to the economic growth of the North East State in the country with respect to the CSR plans given below. Now, the project is likely to generate many facilities for the staff like drainage canals, street lights, Sunday schools, medical facilities, education facilities etc. these facilities will be provided for local people in better environment than the present with least disturbance to their occupation and cultural activities. Preference will be given to the local population in employment. Plant workers will be educated regarding noise and noise protection devices and safety aspects. Health camps and records will be maintained regularly. NRL maintains cordial and supportive relations with the people in the vicinity.
10.4.5 Biological Environment A proper greenbelt plan for the proposed project is envisaged in the design phase. Out of
333.5 Ha total plant area, approx. 56 Ha is already exist for greenbelt development. Additional 6 Ha will be planted in the township area which is near to the refinery. The greenbelt programme for the proposed project is proposed in phased manner.
10.4.5.1 Guidelines for Plantation
The plant species identified for greenbelt development will be planted using pitting technique. The pit size will be either 45 cm x 45 cm x 45 cm or 60 cm x 60 cm x 60 cm. Bigger pit size is preferred on marginal and poor quality soils. Soil proposed to be used for filling the pit will be mixed with well decomposed farm yard manure or sewage sludge at the rate of 2.5 kg (on dry weight basis) and 3.6 kg (on dry weight basis) for 45 cm x 45 cm x 45 cm and 60 cm x 60 cm x 60 cm size pits respectively. The filling of soils will be completed at least 5 - 10 days before the actual plantation. Healthy seedlings of identified species will be planted in each pit.
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10.4.5.2 Species Selection
Based on the regional background and soil quality, greenbelt will be developed. In greenbelt development, monocultures are not advisable due to its climatic factor and other environmental constrains. Greenbelt with varieties of species is preferred to maintain species diversity, rational utilization of nutrients and for maintaining health of the trees. Prepared in this way, the greenbelt will develop a favorable microclimate to support different micro-organisms in the soil and as a result of which soil quality will improve further. During the course of survey, it has been observed that the soil quality of the plant site is fairly good and can support varieties of dry deciduous plant species for greenbelt development. Manure and vermin-compost may be mixed with the soil used for filling the pit for getting better result for survival of plant species. Adequate watering is to be done to maintain the growth of young seedlings. Based on the regional background, extent of pollution load, soil quality, rainfall, temperature and human interactions, a number of species have been suggested to develop greenbelt in and around the refinery. These species can be planted in staggering arrangements within the plant premises. Some draught resistant plant species have been identified which can be planted for greenbelt development if sufficient water is not available. The suitable species for greenbelt development programme are given in Table 10.4. However, the species suitable for planting in the area as recommended by Central Pollution Control Board in their publication “Guidelines for Developing Greenbelts” (PROBES/75/1999-2000) are followed.
Table 10.4 List of tree species suggested for green belt development
Sl. No.
Species Name Family Type Areas to be
Planted
1 Abutilon indicum L. Malvaceae Shrub Avenue
2 Acacia catechu Willd. Mimosaceae Tree Greenbelt
3 Acacia farnesiana (L.) Willd.
Mimosaceae Tree Avenue
4 Acacia leucophloea (Roxb.) Willd.
Mimosaceae Tree Greenbelt
5 Acacia mearnsii de Willd. Mimosaceae Tree Avenue
6 Acacia nilotica (L.) Willd. Mimosaceae Tree Avenue
7 Acacia pennata Willd. Mimosaceae Tree Avenue
8 Acacia polycantha Willd. Mimosaceae Tree Greenbelt
9 Acacia Senegal Willd. Mimosaceae Tree Greenbelt
10 Acacia sinuate (Lour) Merill
Mimosaceae Tree Avenue
11 Acer campbellii Hook F. and Thomas.
Aceraceae Tree Greenbelt
12 Acer negundo L. Aceraceae Tree Greenbelt
13 Achras sapota L. Sapotaceae Tree Residential
14 Actinodaphne angustifolia Nees.
Lauraceae Tree Avenue
15 Adenanthera pavonia L. Mimosaceae Tree Avenue
16 Adina cordifolia Roxb. Rubiaceae Tree Greenbelt
17 Aegle marmelos (L.) Correa ex Roxb.
Rutaceae Tree Residential
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Sl. No.
Species Name Family Type Areas to be
Planted
18 Aesculus indica Hook Sapindaceae Tree Greenbelt
19 Ailanthus altissima (Mill) Swingle
Simarubaceae Tree Greenbelt
20 Ailanthus excelsa Simarubaceae Tree Greenbelt
21 Alangium chinense (Lour) Harms
Alanginaceae Tree Greenbelt
22 Albizia chinensis (Osbeck) Merill
Mimosaceae Tree Greenbelt
23 Albizia lebbeck Mimosaceae Tree Greenbelt
24 Albizia odoratissima Benth.
Mimosaceae Tree Greenbelt
25 Albizia procera Benth Mimosaceae Tree Greenbelt
26 Aleurites fordii Hemsl Euphorbiaceae Tree Greenbelt
27 Alnus nepalensis D.Don Betulaceae Tree Greenbelt
28 Alnus nitida Endl Betulaceae Tree Greenbelt
29 Alstonia scholaris (L.) R.Br.
Apocynaceae Tree Avenue
30 Annona reticulata L. Annonaceae Tree Residential
31 Annona squamosa L. Annonaceae Tree Residential
32 Anogeissus latifolia Wall. Combretaceae Tree Greenbelt
33 Anthocephalus chinensis Lamk.
Rubiaceae Tree Avenue
34 Aphanamixis polystachya (Wall) Parker
Meliaceae Tree Avenue
35 Artocarpus heterophyllus Lamk.
Urticaceae Tree Residential
36 Artocarpus lacucha Bucb. Urticaceae Tree Residential
154 Terminalia catappa L. Combretaceae Tree Avenue
155 Terminalia chebula Retz. Combretaceae Tree Greenbelt
156 Thuja occidentalis L. Cupressaceae Tree Avenue
157 Trema orientalis Blume Ulmaceae Tree Greenbelt
158 Ulmus wallichiana Planch. Ulmaceae Tree Greenbelt
159 Ziziphus mauritiana Lam. Rhamnaceae Tree Greenbelt
The species suggested here are commonly seen in and around the project area, fast growing and drought resistant. Seedlings / saplings of these species can be easily procured from local nurseries. The selection of plant species for the green belt development depends on various factors such as climate, elevation and soil. The plants suggested for green belt were selected based on the following desirable characteristics.
Fast growing and providing optimum penetrability.
Evergreen with minimal litter fall.
Wind-firm and deep rooted.
The species will form a dense canopy.
Indigenous and locally available species.
Trees with high foliage density, larger of leaf sizes and hairy on surfaces.
Ability to withstand conditions like inundation and drought.
Soil improving plants, such as nitrogen fixing plants, rapidly decomposable leaf litter.
Attractive appearance with good flowering and fruit bearing.
Bird and insect attracting plant species.
Sustainable green cover with minimal maintenance
Species which can trap/sequester carbon
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In addition, a lawn and floral garden with the varieties of small flowering plants may be developed near the office site for aesthetic value of the entire complex.
The predominant wind directions are from SW and SSW direction as observed from windrose
diagram in Chapter-3. To arrest the fugitive emissions tree plantation will be undertaken in general around the above mentioned areas particularly, as compared to other regions.
10.4.5.3 Plantation scheme
Plant sapling will be planted in pits of about 3.0 to 4.0 m intervals so that the tree density is about 1500 trees per ha. The pits will be filled with a mixture of good quality soil and organic manure (cow dung, agricultural waste, kitchen waste) and insecticide. The saplings / trees will be watered using the effluent from the sewage treatment plant and treated discharges from project. Sludge from the sewage treatment plant will be used as manure. In addition kitchen waste from plant canteen can be used as manure either after composting or by directly burying the manure at the base of the plants. The saplings will be planted just after the commencement of the monsoons to ensure maximum survival. The species selected for plantation will be locally growing varieties with fast growth rate and ability to flourish even in poor quality soils.
A total of more than 33% of total project area will be developed as green belt or green areas in project area and other areas. The greenbelt will be developed along the project boundary, depending on the availability of space. The areas, which need special attention regarding green belt development in the project area, are:
1. Around plant units 2. Plant Boundary 3. Vacant Areas in Plant 4. Around Office Buildings, Garage, Stores etc. 5. Along Road Sides (Avenue Plantation)
10.4.5.4 Post plantation care
Immediately after planting the seedlings, watering will be done. The wastewater discharges from different sewage treatment plant / out falls will be used for watering the plants during non-monsoon period. Further watering will depend on the rainfall. In the dry seasons watering will be regularly done especially during February to June. Watering of younger saplings will be more frequent. Organic manure will be used (animal dung, agricultural waste, kitchen waste etc.). Younger saplings will be surrounded with tree guards. Diseased and dead plants will be uprooted and destroyed and replaced by fresh saplings. Growth / health and survival rate of saplings will be regularly monitored and remedial actions will be undertaken as required.
10.4.5.5 Phase wise Greenbelt Development Plan Greenbelt will be developed in a phase wise manner right from the construction phase of the
proposed project. In the first phase along with the start of the construction activity all along the plant boundary, open space areas, and major roads will be planted.
In the second phase the office building like Canteen, Administrative building, Fire Safety office area will be planted. In the third phase when all the construction activity is complete plantation will be taken up in the gap areas of plant area, around different units, in stretch of open land and along other connecting roads, parks and residential quarters.
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The total construction period is 48 months. The first phase of the plantation programme will start immediately with the start of construction and run upto 24 months. The second phase will start after 25 months and continue upto 48 months.
10.4.6 Existing Greenbelt in NRL Refinery
A meticulously planned and developed Green Belt of around 100 meter width around the Refinery and around 25 meter width around the NRMT has been developed covering a total area of 60 hectares and now has grown into a rich foliage, rendering a perfectly natural barrier to the industrial noise, minor air pollutants from reaching the immediate surroundings, both human population, rich flora & fauna and also help in mitigating the effects of fugitive emission in all around Refinery. Initially plantation of around 1,25,000 nos of saplings of various species were carried in the Green Belt around Refinery and 20,000 nos in the Green Belt around NRMT . Some of the fast growing varieties planted are Aam, Appelipi, Azar, Akesis, Amlakhi, Baga Jamun, Bhomora, Bakul, Ranga Chandan, Debadaru, Ghoraneem, Jalphai, Kathalua, Krishnasura, Radhasura, Sendur, Silikha, Titasapa, Teak etc. In order to increase the population, fresh plantation is carried out in regular intervals.
NRL has aggressively pursued a forestation in 2015-17 by planting around 15,000 saplings within the refinery green belt. The cost involved was around 14 Lakhs.
Another plantation programme of around 15000 saplings started inside the refinery for 2018-20. The cost involvement will be around 22 Lakhs. Afforestation drive:
NRL partnered with the State Government for planting trees in the villages and road sides, and around one lakh trees were planted in the district of Golaghat, with our support.
NRL desires to take up afforestation drive by planting trees in deforested areas as a green initiative of its refinery located at Numaligarh, Golaghat, Assam and an application was submitted to Golaghat Social Forest Division (GFSD) requesting to arrange land for the said purpose. Accordingly, GSFD submitted a project proposal for the said purpose which includes tree plantation, its protection and maintenance for 5 years till the trees become self-sustainable. As per the proposal, GSFD has offered approx. 40 ha land .The said 40 ha land is under the possession of GSFD. NRL desires to develop the said plot of land basically for three purposes-
i. As compensatory afforestation against the trees to be felled in relation to forthcoming refinery expansion project and its allied activities.
ii. To enhance the environment by increasing forest area to reduce greenhouse effect due to mass deforestation in the state of Assam.
iii. Use tree plantation to minimize erosion by the river Brahmaputra.
iv. To develop the area as Forest Eco Resort through proper landscaping and make it an eco-tourist hub. For this purpose NRL will engage an expert agency to make a proper plan which will be implemented by GSFD while executing the project. Total cost involvement for the said project will be around 1 Cr.
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Grown-up Plantation in Refinery Complex
10.4.7 Bio-diversity improvement in the NRL Complex
Within the Numaligarh Refinery premises, two nos. of gardens have been developed near the Hydrocracker Unit area and captive Power Plant area with varieties of flowering plants. Also, different varieties of saplings are also planted in the roadside areas, in the Effluent Treatment Plant and in the gardens newly developed. Keeping environment as a prime concern, NRL has envisaged an ambitious experimental project for the first time in the country. This unique project called “Butterfly Eco System” located in the Refinery Township is an effort to give a natural habitat for butterflies to come, stay and breed in their natural way. Also a unique herbal garden of rare medicinal plants called “Smritibon” has been developed in the township. Subsequent to the signing of MOU between NRL & NEIST, two Entomologists from NEIST, Jorhat have been working at Butterfly Valley since 01.06.2009. So, far more than 90 different species of butterflies have been sighted at Butterfly Valley of which 72 species have been identified and recorded.
Butterfly Park at NRL Township
In addition, plantation of various saplings has also been carried out on a wide scale all along the road sides in the Township & in the butterfly valley.
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Proposed Conservation Plan for Elephant under Schedule – I Species of wildlife
The detailed Conservation Plan for Wildlife Species under Schedule – I along with budget of post NREP: The Asian elephant (Elephas maximus), also called Asiatic elephant, is the only living species of the genus Elephas and is distributed throughout the Indian subcontinent and Southeast Asia.
Conservation Status of Elephas maximus
Legal Statute Status
Indian Wildlife Protection Act 1972 (IWPA, 1972) Schedule I
‘The Red Data Book on Indian Animals’ Part 1, Vertebrata published by Zoological Survey of India, July 1994
Endangered
CITES Appendix I
IUCN ‘Endangered (ver. 2019-3)
Description
On average, males are about 2.75 m (9.0 ft) tall at the shoulder and 4 t (4.4 short tons) in weight, while females are smaller at about 2.4 m (7.9 ft) at the shoulder and 2.7 t (3.0 short tons) in weight. Length of body and head including trunk is 5.5–6.5 m (18–21 ft) with the tail being 1.2–1.5 m (3.9–4.9 ft) long. The taxonomic status is given below;
Common Name Asian Elephant
Phylum Chordata
Class Mammalia
Order Proboscidea
Family Elephantidae
Genus Elephas
Species maximus
Migratory Status Resident
Occurrence Common to Indian Subcontinent and South East Asian countries
Habitat & Distribution
Asian elephants inhabit grasslands, tropical evergreen forests, semi-evergreen forests, moist deciduous forests, dry deciduous forests and dry thorn forests, in addition to cultivated and secondary forests and scrublands. Over this range of habitat types elephants occur from sea level to over 3,000 m (9,800 ft). In the eastern Himalaya in northeast India, they regularly move up above 3,000 m (9,800 ft) in summer at a few sites.
Behaviour & Ecology
Elephants are crepuscular. They are classified as megaherbivores and consume up to 150 kg (330 lb) of plant matter per day. They are generalist feeders, and are both grazers and browsers. They are known to feed on at least 112 different plant species, most commonly of the order Malvales, as well as the legume, palm, sedge and true grass families. They browse more in the dry season with bark constituting a major part of their diet in the cool part of that season. They drink at least once a day and are never far
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from a permanent source of fresh water. They need 80–200 litres of water a day and use even more for bathing. At times, they scrape the soil for clay or minerals. Threats The pre-eminent threats to the Asian elephant today are the loss, degradation and fragmentation of its habitat, which leads to increasing conflicts between humans and elephants. Asian elephants are poached for ivory and a variety of other products including meat and leather. The demand for elephant skin has risen due to it being an increasingly-common ingredient in traditional Chinese medicine. Human-Elephant conflict One of the major instigators of human–wildlife conflict in general is competition for space. This is especially true for wild Asian elephants, which require relatively large territories to live in. Destruction of forests through logging, encroachment, slash-and-burn, shifting cultivation, and monoculture tree plantations are major threats to the survival of elephants. Human–elephant conflicts occur when elephants raid crops of shifting cultivators in fields, which are scattered over a large area interspersed with forests. Depredation in human settlements is another major area of human–elephant conflict occurring in small forest pockets, encroachments into elephant habitat, and on elephant migration routes. However, studies in Sri Lanka indicate that traditional slash-and-burn agriculture may create optimal habitat for elephants by creating a mosaic of successional-stage vegetation. Populations inhabiting small habitat fragments are much more liable to come into conflict with humans. Poaching Poaching mainly happened due to ivory and tusk. The latest threat to endangered Asia elephants is high and increasing demand for elephant skin. The skin is used as an ingredient in Chinese medicine as well as in the manufacture of ornamental beads. Habitat Loss Elephants are also losing their habitats and ancient migratory routes due to expanding human settlements into their habitat, agricultural development, and the construction of infrastructure such as roads, canals, and fences that fragment their habitat. As a result, human-elephant conflict is rising as more and more elephants come into close contact with humans. This often leads to elephants destroying crops and property, as well as occasional human casualties. These negative interactions can result in the retaliatory killing of elephants. Conservation Action This species is listed on CITES Appendix I. The most important conservation priorities for the Asian elephant are: 1) Conservation of the elephant's habitat and maintaining habitat connectivity by securing corridors; 2) The management of human–elephant conflicts as part of an integrated land-use policy that recognizes elephants as economic assets from which local people need to benefit or at least no suffer; 3) Better protection to the species through improved legislation and law enforcement, improved and enhanced field patrolling, and regulating/curbing trade in ivory and other elephant products. Monitoring of conservation interventions is also needed to assess the success or failure of the interventions so that adjustments can be made as necessary (i.e. adaptive
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management). Reliable estimation of population size and trends will be needed as part of this monitoring and adaptive management approach.
Project Impact & Significance
Considering habitat requirements, behavior and ecology of organisms, following are threats to survival of species.
Threats to survival of species
Species Threats in general
Elephas maximus
Loss of natural habitat Habitat degradation Loss/ shrinkage/ polluted water sources Hunting for tusk & skin.
The proposed project activities will be undertaken within the existing NRL premises and along pipeline rout. The project will not lead to destruction or deterioration of habitat as, proposed activities are located within plot area. Emission and discharge viz. air emissions, noise, water discharge will impact the protected species or their habitats insignificantly. However, as preventive measure certain management measures have been identified for protection of the Schedule I species found in the area. These measures are as follows:
Conservation Plan
The Conservation Plan would focuses on conservation of habitats of Schedule I species identified during the EIA process. Support in the form of donation of funds and active participation in awareness campaigns will be provided to the existing management plans undertaken by the Forest Department in the area. Awareness drives will be undertaken targeting different group of society at different times. During these, dialogue with locals will be established and importance of co-existence of these species will be explained.
Existing Forest Conservation Programme of the Forest Department
The overall forest and wildlife management measures practiced by the forest department in the area also serve for conservation of the habitats of the Schedule I species in the area. The forest and wildlife management practices in the area include;
Plantation Programs
Construction of small check dams
Awareness
Step to Help Conservation
NRL will formulate the competent team of experts headed by Head Environment to discuss with the forest department officials to know various existing habitat improvement and wildlife management activities conducted in study area. In consultation with the forest department, NRL will provide support to the existing forest and wildlife conservation plans by earmarking separate, sufficient fund as mentioned in table below for such activities and through inclusion of ‘wildlife awareness campaign’s in various other NRL programs from time to time. These campaigns will be conducted by team of experts in the field to make the locals aware about the protected species in the area; their behavior, habitat, ecology, breeding/nesting seasons, threats to habitats and species, laws regarding protection of species; through audio-visual aids, quiz competitions, arranging study tours to various locations in different seasons etc. on village level.
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Financial Outlay
NRL is committed to earmarked funds and utilized it only for purpose specified through forest department. details of utilization of funds (amount is in lakhs) are given in following table.
Details of utilisation of funds (amount is in lakhs)
Sr. No.
Activity
Years from commencement of project
I II III IV V Total
I Direct & Indirect involvement of NRL Amount in lakhs
1. To associate with forest department, and other agencies for effective implementation of conservation regulations
4 4 4 4 4 20
2 Conservation education and awareness program in and around selected wildlife habitats.
1 1 1 1 1 5
3. Conservation plan implementation as directed by Forest Dept., Govt. of Assam
3 3 3 3 3 15
Total 8 8 8 8 8 40
NRL will spend total Rs. 40 lakhs (for first 5 years of implementation of project) towards wildlife conservation. 10.5 Existing Waste Management in Refinery
Numaligarh Refinery has adopted in-built measures to minimize and control pollution and generation of waste in all the units with proper collection and disposal system. Adequate segregation and centralized treatment facilities. Adequate segregation, collection and treatment facilities for wastewater for centralized treatment have been provided to meet the stringent standards laid down in the latest MoEFCC Notification 2008. Therefore, generation of hazardous waste and oily sludge at Numaligarh Refinery is kept at minimum. However, few amount of oily sludge in the refinery is generated during the cleaning of crude tanks and through ETP operation which has been disposed off as the standard practices. Different management practices are adopted to reduce hazardous waste. Some of them are mentioned below.
Recycling of Slop oil
Recycling of waste oil from OWS & CRW systems
Recovery of oil from ETP sludge An environmentally compatible solid waste management system for disposal of the oily sludge generated from ETP and bio-sludge from ETP through Secured Landfill facility for safe disposal of the same. Brief note of Oily Sludge Waste Management of Numaligarh refinery is attached as Annexure XII.
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10.5.1 Water Conservation Practice
Reuse of storm water As a step towards water conservation, NRL implemented total reuse of storm water going out from the Refinery & Marketing Terminal resulting a huge saving in water and subsequent reduction of water intake. A storm water reservoir of 1000 m3 capacity constructed under this project. The water thus recovered is being used in the refinery fire water network as makeup. A brief note on various water conservation measures is attached as Annexure IX.
10.5.2 Other Environmental Measures
To avoid any adverse impact of the flare on animals in the Kaziranga National Park, which is nearer to the refinery, a non-illuminating ground flare has been incorporated which is one of the firsts in the country. Installation of solar cells NRL has commissioned 1.0 MW Solar grid interactive power Plant in the year 2018. Study is being taken up for feasibility of another 1.0 MW Solar Plant in the township.
10.6 OCCUPATIONAL HEALTH
In order to provide safe working environment and safeguard occupational health and hygiene, the following measures will be undertaken:
10.6.1 HEALTH
Periodic compulsory medical examination for all the AMC workers and specific medical
examination.
All the employees shall be trained in Health, Safety and Environment (HSE) aspects related to their job.
Exposure of workers to noise, particularly in areas housing equipment which produce 85 dB(A) or more will be monitored by noise decimeters. Audiometric tests are also done at periodic intervals for all the plant employees.
10.7 ENVIRONMENT CELL
M/s NRL is already having an Environment Cell under its technical services department which is headed by a well-qualified and experienced technical person from the relevant field. The cell carries out number of activities related to effluent treatment and monitoring of treated effluent, ambient air quality and stack emissions. There exists a separate quality control laboratory to carry out the analysis of air & water samples. The lab has requisite technical staff to carry out these analyses. The existing set-up shall be utilized for the proposed project also both in construction and operation phases.
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10.8 BUDGETARY PROVISIONS FOR ENVIRONMENTAL PROTECTION MEASURES
10.8.1 Capital Cost for Environmental Protection – Proposed Expansion Project
Considering all measures suggested above, cost is worked out for implementation of environmental management plan and is given in Table 10.5 & 10.6. The total estimated budget for implementation of EMP is worked out as Rs. 307.9 crores towards capital cost and Rs. 11.7 crores towards recurring cost per annum.
Table 10.5: Budget of Environmental Management Plan (Capital Cost)
Sl. No. Activity Amount allocated
(Rupees in Crores)
1.0 Air Environment
1.1 Plantation Activities (Trees and Shrubs) 3.0
1.2 Air quality monitoring 0.3
1.3 Online Air Quality Analysers 2.0
2.0 Noise Environment
2.1 Additional Plantation Activities Included in 1.1
2.2 Audiometric tests 0.1
3.0 Water Environment
3.1 Rain water Harvesting pits 1.0
3.2 New Packaged STP 1.0
3.3 ETP and Recycle Plant 250.0
4.0 Land Environment
4.1 Additional Plantation Activities Included in 1.1
4.2 Solid waste management 0.6
5.0 Biological Environment
5.1 Additional Plantation Activities Included in 1.1
Budget for EMP (Capital Cost) 258
Table 10.6: Budget of Environmental Management Plan (Recurring Cost per Annum)
Sl. No. Activity Amount allocated (Rupees in Crores)
1.0 Air Environment
1.1 Additional Plantation Activities (Trees and Shrubs)
0.3
1.2 Air quality monitoring 0.2
1.3 Online Air Quality Analysers 0.2
2.0 Noise Environment
2.1 Additional Plantation Activities Included in 1.1
2.2 Audiometric tests 0.1
3.0 Water Environment
3.1 Rain water Harvesting pits 0.5 3.2 Maintenance of ETP, STP & Recycle plant 10.2
4.0 Land Environment
4.1 Additional Plantation Activities Included in 1.1
4.2 Solid waste management 0.5
5.0 Biological Environment
5.1 Additional Plantation Activities Included in 1.1
Budget for EMP (Recurring Cost per Annum) 12
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10.9 Corporate Social Responsibility (CSR) Activities of NRL
Set-up under the Assam Accord the State-of-the-art Numaligarh Refinery started its commercial production from October 2000. While the primary function of NRL is to operate the refinery with optimum efficiency, the socio-economic welfare of the region is imbibed as an integral part of its corporate philosophy and organizational culture. It is against this backdrop that the company initiated definitive measures for improving the lives of people in the neighbouring areas through innovative and people friendly programmes. Right from its inception, even at the project stage, NRL has been pursuing various Community development programs such as Promotion of art, literature, sports. NRL runs a Football Academy affiliated to IFF. NRL adopted few villages as model villages for inclusive development of the community. Besides concentrating in neighbouring areas NRL endeavours to cover the industrially backward district of Golaghat and also extends a helping hand to other parts of the State of Assam. Under the Community Development programme NRL has reached out to people through:
Free health checkups & medical camps
Aides to educational institutions
Improvements of roads
Providing drinking water facility, electricity, library
Financial assistance to various institutions/organizations
Agri-allied activities and entrepreneurship development NRL continues its endeavours to carry out the community development work as a part of its corporate philosophy and contribute towards development of the region in line with its corporate mission.
Livelihood and Livelihood Avenues NRL is continuing the Mechanized Power Loom project at Ponka village which is adjacent to the refinery. NRL is also continuing the targeted promotion of cultivation of Sali paddy using System of Rice Intensification (SRI) to the farmers of Borgoria, Lettekuchapori, Mithaam Chapori and Barbalitup which is within 5 KM radius of the refinery. Financial assistance has been provided to Smt Lila Chetri for setting up Dairy Entrepreneurship Development Scheme at Bokakhat. NRL is also continuing the project on rural development through scientific cultivation of edible mushroom in Golaghat district. The project Swa Nirbhar is continuing where NRL has provided assistance to 36 numbers of self help groups within 10 KM radius of the refinery for setting up Handloom Weaving centre, Piggery/Dairy and Goatary unit for income generation. NRL is also continuing the project on rural development through scientific cultivation of edible mushroom in Golaghat district and also continuing the Mechanized Power Loom project at Ponka village which is adjacent to the refinery. One new project has been taken up for cultivation of Mushroom, Robi Crops at Golaghat in association with Golaghat Unemployed Association. NRL provided assistance to self help groups within 10 KM radius of the refinery for setting up Handloom Weaving centre, Piggery/Dairy and Goatary unit for income generation. NRL is also continuing the project on rural development through scientific cultivation of edible mushroom in Golaghat district and also continuing the Mechanized Power Loom project at Ponka village which is adjacent to the refinery.
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NRL provided assistance to set up poultry, piggery, dairy and goat farms. NRL is also continuing the Mechanized Power Loom Project at Ponka village. NRL has also provided financial support for the Mime for Livelihood project. Education Financial assistance has been provided to Department of Chemical Engineering, Assam Engineering College towards Golden Jubilee Celebration. The beautification job of Cotton College in Guwahati is also continuing. NRL has taken up construction of a boundary wall at Marangi D.N. High School during the 1st quarter. The project on Digital Literacy Curriculum for the students and members of tea and other ethnic communities in Lettekujan Tea Estate is also continuing. NRL also provided financial assistance to All Assam Students' Union, Guwahati towards felicitation to Rank holders in HSLC, HSSLC and High Madrasa Examination, 2015. Financial support has been provided for supply of 100 pairs of desk benches to Fallangani Examination Centre in Golaghat District. Financial support has been provided to Asom Sahitya Sabha for sponsorship of Dr. Indira Goswami National Literature Award. NRL also provided financial support for Construction of boundary wall at Ranidanga Kalaram High School, Siliguri. Project Prerona was implemented at Siliguri for promotion of education for girl child through award of scholarships covering two schools and twenty-nine students. NRL also provided assistance to Fallangani Navajyoti High School in Golaghat District for construction of class room. Financial support was also provided for construction of Assam Type Auditorium at Kamargaon Girls High School. Infrastructure The job for Installation of LED based traffic road signals in two locations at Golaghat Town has been completed. The field maintenance job for the NRL Football Academy at Numaligarh is also continuing. The construction of Dholakhat Gaon road in Doigrong which was taken up during 4th quarter of 2014-15 is also continuing. NRL gave financial support to Asom Jatiyatabadi Yuba Chatra Parishad, Golaghat for Construction of RCC Office Building. Financial support was provided to Deputy Commissioners Office, Golaghat for Installation of LED based Traffic Road Signals at Golaghat Town. Construction of permanent building of Sangeet Sattra Music School in Guwahati was completed during the fourth quarter. Construction of Drinking Water Project for PAP families at Na-Pather village was also completed during the fourth quarter. Financial support was also provided for improvement of village road at Dholaguri, Doigrong. NRL gave financial support for construction of permanent building of Sangeet Sattra Music School in Guwahati. Financial support has been provided for construction of one waiting shed at Ponka Chariali. Financial support has also been provided for construction of a drinking water project for PAP (project affected people) families at Na-Pather village. NRL also provided financial support for completion of balance works of Telgaram Rangamancha. Health Care NRL organized 64 General, 03 special and 01 First Aid Training Mobile Medical Camps covering a total of 3644 patients in villages in its vicinity. Each medical camp covered a cluster of villages. During this quarter, NRL provided financial support for treatment of 03 persons from financially weak families in nearby areas. NRL is also continuing the eye screening and cataract operation camp in refinery nearby areas. During the 1st quarter, 2 numbers of camps were held in Numaligarh and Doigrong covering 430 patients. 93
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numbers of spectacles were provided to the poor patients and 38 cataract operations were performed through Lions Eye Hospital, Jorhat. NRL launched its flagship project ‘NRL Helping Hand’2014 in association with Artificial Limb Manufacturing Corporation of India, where aids & appliances were distributed to 520 differently abled persons from Kamrup and Kamrup (Metro) at the Guwahati Medical College Hospital Auditorium. Art/Culture/Sports NRL provided financial support to Bokakhat Natya Mandir for completion of balance jobs. Financial support was provided to Assam Mountaineering Association for high altitude Treking to Sandakphu in Darjeeling. Financial assistance was also provided for organizing Jorhat Races, 2014 and organizing 53rd Annual Conference of Bodo Sahitya Sabha. NRL provided financial support to Dergaon Sports Association, Dergaon for procurement of Table Tennis Board for the children of Dergaon Town. Financial assistance was also provided to Jorhat Institute of Science and Technology, Jorhat for organizing Technical Festival "Abeyaantrix 2014". Financial support was also provided to Jyotirupa, Socio- Cultural organization, Guwahati for organizing 35th Jyotirupa North East One Act Drama competition & Singha Purush Radha Govinda Bourah Drama Festival 2014. NRL has also set up a Badminton Coaching Centre at Rajiv Gandhi Rural Sports Complex, Furkating during 1st quarter for the children below 12 years. The NRL football Academy is also continuing the activities at the play field of Numaligarh High School. NRL provided financial support to Asam Sahitya Sabha towards formation and functioning of permanent infrastructure wing for implementation of Bishwaratna Dr. Bhupen Hazarika International Solidarity Award and Dr. Indira Goswami National Award on literature. Financial support was provided to Asom Kalatirtha, Guwahati for organizing workshop and also publish book on the occasion of 150th Birth Anniversary of Sahityarathi Lakshminath Bezbarua. Final installment of financial assistance was also provided for Construction of Conference Hall cum Training Hall at Radial Football Academy, Nagaon. Financial support was also provided to Guwahati Sports Association for organizing 62nd Bharat Ratna Lokopriya Gopinath Bordoloi Trophy football Tournament. Activities at NRL Football Academy are also continuing during this quarter.
Other Programs NRL has provided street light facilities from Babathan to RAW on NH-39. A village road was constructed at Bishnupur PAP village. Construction of two numbers of village roads at 4 No. Rongbong village is under progress. Three numbers of Ringwell at Owguri Chapori village has been completed. A total of 59 mobile medical camps covering 2156 numbers of patients were organized in nearby areas of the refinery with support from Vivekananda Kendra NRL Hospital for providing health care facilities. NRL has also installed 16 numbers of sanitary latrines in Kalioni Block Gaon and Numaligarh Na-Pather for BPL families during the first quarter. The sanitary latrines, termed as “Low Cost Latrine with Brick Superstructure (NTS)”, are designed according to World Health Organization (WHO) guidelines and additionally improved to suit local conditions. NRL, in association with Aaranyak, a society for biodiversity conservation in NE India organized programmes on the World Environment Day in the vicinity of the Kaziranga National Park. Programmes such as audio-visual awareness talks, games and street plays on environmental pollution and depletion of natural resources were held in 11 locations simultaneously.
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The NRL Football Academy is continuing under the professional expertise of SPT Sports Management Pvt. Ltd, Bangalore and Assam Football Association at Numaligarh High School play field. Forty boys are undergoing training at the academy. NRL is also assisting in the construction of Bokakhat Natya Mandir and Telgaram Rangamancha. The construction work is going on at both the sites. CSR Expenditure in various projects for the year 2015-16, 2016-17 and 2017-18 are attached in Annexure X.
10.10 Corporate Environment Responsibility (CER)
Corporate Environmental Responsibility (CER) refers to a company's duties to abstain from damaging natural environments. The idea of corporate environmental responsibility (CER) is for humans to be more aware of the environmental impact and counteract their pollution/carbon footprint on the natural resources. The following factors cover the environmental implications of a company's operations:
Eliminate waste and emissions Maximize the efficient use of resources and productivity Minimize activities that might impair the enjoyment of resources by future generations.
Various CER activities will be carried out by NRL in the vicinity of proposed project area with budget during next 5 years. The budget for CER is Rs. 36.51 Crores (approx. 0.1616 % of total project cost in line with MoEFCCCC notification vide F.No.22-65/2017-IA.III; dated: 01.05.2018) and the breakup of CER cost is given below:
The above funds will be spent in various CER activities during 5 years like Solar Lighting/Solar pump (Irrigation) system, Drinking Water Facilities, greenbelt development, Air quality monitoring in surrounding area etc. in addition to the cost envisaged for the implementation of the EIA/EMP which includes the measures for the pollution control, environmental protection and conservation. Detailed of CER activities plan with cost break up over the 5 years is given below:
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Table 10.7: Details of CER Budget to be spent by NRL
Sl. No. CER Activities 1st Year (Rs. In Lakhs)
2nd Year (Rs. In Lakhs)
3rd Year (Rs. In Lakhs)
4th Year (Rs. In Lakhs)
5th Year (Rs. In Lakhs)
1. Drinking water supply & Sanitation
210 180 190 130 170
2. Community Health Support and welfare
75 70 60 70 50
3. Education and Skill Development
150 170 150 170 190
4. Support in Infrastructure/ Transport facility
50 50 80 65 50
5. Technical Support to local farmers
45 65 50 55 50
6. Awareness for solar electrification and solid waste management
80 110 80 100 90
7. Rain water harvesting and Tree plantation
120 85 120 140 130
Total Expense (Rs. in Lakhs) 730 730 730 730 730
Total Expense (Rs. in Crores) 7.3 7.3 7.3 7.3 7.3
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CHAPTER – 11
SUMMARY & CONCLUSION
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11.0 Summary
This Summary covers the following topics in brief:
1. Project Description
2. Description of Environment
3. Anticipated Environmental Impacts and Mitigation measures
4. Environmental Monitoring Programme
5. Environment Management Plan
6. Project Benefits
7. Additional studies
11.1 Project Description
Introduction
M/s. Numaligarh Refinery Limited (NRL) is one of the major Petroleum Refining Industry
located in the North East region. The refinery has spread over an area of 333.5 Ha. The
refinery was commissioned in 1999 and presently has an installed capacity of 3 MMTPA.
NRL has been upgraded and certified against the latest version of the standard i.e., ISO
14001: 2015 replacing the earlier ISO 14001: 2004 which it earned immediately after
commissioning.
The major activity carried out at Numaligarh Refinery is refining of Crude oil & it’s
separation into various fractions / constituents viz.
The main products of the refinery are LPG, Naphtha, Motor spirit, HSD, ATF, Kerosene,
Sulphur and Coke.
Proposed Project Refinery Capacity Expansion
Numaligarh Refinery is currently expanding its refining capacity from 3.0 To 9.0 MMTPA
by installing an additional 6.0 MMTPA refinery. The additional 6.0 MMTPA refinery will be
designed to refine the imported sour crude. The crude will be getting from the Paradip port.
The major products from this 6.0 MMTPA refinery are LPG, Naphtha, BS-VI grade Motor
spirit and HSD, Sulphur and Coke.
The present refinery is designed to refine crude oil of 3.0 MMTPA. NRL intends to install an additional crude oil refining capacity of 6.0 MMTPA in their battery limits. The following processing options have been considered for the design Case:
Primary processing Option:
- 6.0 MMTPA of crude to CDU/VDU
Light ends Processing options:
- Naphtha Hydro-treater/Naphtha Iso-merisation/ Naphtha Continuous Catalytic Regeneration Units (NHT/ISOM/CCR)
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Secondary Processing options:
- Diesel Hydrotreating unit (DHDT) - Petro Fluidized Catalytic Cracker (PFCC,including cracked LPG treating
facility)) - FCC Gasoline Desulfurization Unit
ResidueUpgradation options
- Residue Upgradation Facility (RUF) comprising of Ebullated bed Resid
hydrocracker with integrated VGO Hydrotreater
Auxiliary Units - Hydrogen Generation Unit (HGU)
- SRU/SWS/ARU/TGTU
- Straight run LPG treating Unit (Comprising RUF and Straight run LPG
treating Unit)
- Utility Boilers to meet new refinery steam demand.
- Incidental power from new STGs and balance power required from grid.
- Intermediate & final product storage & handling facilities, as required
Implementation of this project will enable NRL to increase BS VI grade MS and HSD
production. Thereby reducing the further environmental impact on the atmosphere.
M/s NRL has entrusted M/s Engineers India Limited (EIL) to carry out Environmental
Impact Assessment (EIA) study for various environmental components of the proposed
expansion project. EIL is an accredited consultant for carrying out EIA studies by Quality
Council of India in Category A – “petroleum refining industry”; Sector 10 as per NABET
scheme & 4(a) (MoEFCC).
Environmental Monitoring was undertaken at various locations in the study area within
impact zone of 10 km radial distances around the proposed project. The environmental
baseline data collection involved the assessment of various environmental parameters like
aspects. The study has been conducted for one year i.e. March 2019 to May 2019.
11.1.1 Configuration of Proposed Refinery Capacity Expansion project
The proposed project only deals with the Refining of imported sour crude. The following
units are envisaged in the additional refinery:
1. Crude/Vacuum Distillation Unit with naphtha stabilizer.
2. Naphtha Hydro-treating Unit.
3. Isomerisation Unit.
4. Continuous Catalytic Regeneration Unit.
5. Diesel Hydro-treating Unit.
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6. Petro Fluidized Catalytic Cracker.
7. FCC Gasoline Desulphurization Unit.
8. Residue up-gradation unit (With integrated VGO hydro-treater)
9. LPG Treating Unit.
10. Fuel gas treating unit.
11. Hydrogen Generation Unit.
12. Sour Water Stripper.
13. Amine Regeneration Unit.
14. Sulphur Recovery Unit (With Tail Gas Treatment Unit).
The fuels produced from this new train will meet BS-VI grade fuel norms.
The estimated capital cost for the proposed Refinery Capacity expansion is Rs. 22594
Crores.
The product slate in the additional train favors maximization of Domestic regular Motor spirit (BS-VI) and Domestic High speed diesel (HSD) (BS-VI). Table 11.1 gives the present product slate.
Table 11.1: Proposed Product Slate for NREP
The following utilities will be used for the proposed Refinery Capacity Expansion project:
Feed Purchase LPG Minimization Case (MMTPA)
Propylene Maximization Case (MMTPA)
Arab Light 1.8 1.8
Arab Heavy 4.2 4.2
Natural Gas 0.494 0.477
VR of existing refinery VDU 0.306 0.306
Coker Light and Heavy Naphtha from existing refinery DCU
0.045 0.045
HCGO from existing refinery DCU
0.109 0.109
Product Sales (MMTPA)
LPG 0.500 0.954
BS VI Gasoline 1.572 1.301
Light Distillate 2.072 (29.8%) 2.155 (32.5%)
BS-VI HSD 3.370 3.180
Middle Distillate 3.370 (48.5%) 3.18(45.8%)
RUF bottoms to existing Coker
0.561 0.544
Heavy distillate 0.561(8.1%) 0.544 (7.8%)
Sulfur (TPD) 434 434
Fuel and Loss 0.805 (11.6%) 0.812 (11.7%)
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Additional power requirement for the proposed project is around 135 MW which
will be sourced by installing a two extraction type STG’s of 12 MW & 23 MW and
100 MW will be imported from grid power.
The total requirement of raw water for the post NREP is around 2508 m3/hr.
BFW requirement for the proposed project is 275 TPH.
During normal operation, sour water from all the units will be routed to SWS unit
and only stripped water from SWS will come to ETP. Total stripped sour water
quantity is estimated to 100 m3/hr. However, part of this is normally routed to
crude De-salter in CDU/VDU.
Boiler blow down will be routed to ETP for reuse and recovery.
Sufficient storage shall be provided for sour water at the generation points, so that
during start up and shut down sour effluent can be diverted to these storage tanks
instead of diverting to wastewater treatment plant.
11.2 Description of Environment
Environmental baseline data has been collected around NRL site during the period of
March 2019 to May 2019 by M/s Vardan EnviroLab, Gurugram, Haryana which is one of
the MoEFCC recognized and NABL accredited approved environmental laboratory. The
baseline data for various environmental components related Ambient Air Quality, Water
Quality, Noise Level, Traffic Density, Soil, Meteorology and Socio-Economic Data were
monitored and collected in an area of 10 km radius from the plant site.
11.2.1 METEOROLOGY
To record the prevailing meteorological conditions at the site, a meteorological
observatory was set up at a height 10m above the ground level at the NRL project site.
The micro-meteorological parameters of interest in the context of Impact Assessment are
wind speed, wind direction, relative humidity, ambient temperature and rainfall.
During the study period the predominant wind directions were observed from ENE
followed by NE with an avg. speed of 2.80 m/s. The minimum and maximum temperature
recorded during the study period was was 11.9 °C and 36.5 °C respectively.
11.2.2 AMBIENT AIR ENVIRONMENT
In order to obtain baseline air quality status, total eight (08) nos. air quality monitoring
stations were set up in and around 10 km radius area of NRL Refinery. The locations
were identified considering the location of human settlements and predominant wind
directions in the area.
PM10, PM2.5, SO2, NO2, CO, C6H6, NH3, O3, HC and VOC were selected parameters
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for the Baseline study. Parameters like PM10, PM2.5, SO2, NO2and NH3 were analyzed
on 24 hourly basis, whereas CO and O3 on 8 hourly basis. Sampling was carried twice a
week during 12 weeks study period.
All the sampling sites are monitored at a height ranging from 3-5 m and free from any
obstructions. Location wise highest 98 percentile values for collected parameters are
given in below Table 11.2.
Table 11.2 Summary of Air Monitoring Data Analysis
S.No. Location PM10
(µg/m3)
PM2.5
(µg/m3)
SO2
(µg/m3)
NO2
(µg/m3)
CO
(mg/m3)
NH3
(µg/m3)
O3
(µg/m3)
1 Near NRL BIO Refinery
65.86 30.10 16.10 27.10 0.84 35.89 34.35
2 Near Telgram 82.19 46.90 14.70 28.20 0.83 30.04 36.29
3 Near INTAKE 79.90 46.40 14.20 33.30 0.88 35.09 37.35
4 Near Bishnupur 81.64 47.06 13.55 29.31 0.85 32.47 31.99
5 No.2 Rongbong (Near Pankha Gaon)
70.10 35.00 12.00 20.10 0.86 33.05 34.84
6 Near Pura Bangla
67.86 31.86 18.70 24.10 0.89 29.20 35.07
7 Near Numaligarh Dhaba
95.16 51.16 19.40 29.07 0.91 30.97 34.26
8 Near Sankala Gaon
82.20 45.65 18.148 29.10 0.90 32.08 30.56
From Table 11.2, it can be seen that the 98 percentile values at various monitoring
stations for gaseous pollutants like PM10, PM2.5, SO2, NO2, CO and NH3, benzene were
found well below the National Ambient Air Quality standards for residential/industrial areas.
11.2.3 WATER ENVIRONMENT
Baseline water data was collected at Sixteen (16) nos. locations (08 nos. ground water
locations, and 08 nos. surface water sources) at around 10 km radius area of NRL.
The samples were analyzed for Colour, Odour, Taste, Temperature, pH, Turbidity, Total
Dissolved Solids, Total Suspended Solids, Total Hardness (as CaCO3), Sulphides,
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11.2.7 BIOLOGICAL ENVIRONMENT
There is no national park / wild life sanctuary / eco sensitive area is within 10 Km from
NRL Refinery.
11.2.8 SOCIO-ECONOMIC ENVIRONMENT
Socio-economic profile of human settlements around 10 km radius area of NRL has been
collected and presented in sec 3.6 of chapter-3 in this EIA study report.
11.3. Anticipated Environmental Impacts and Mitigation measures
11.3.1 Ambient Air Environment
Mitigation Measures for Minimizing Air Emission Impact
In order to minimize the impact of the project on the environment, due attention is given
for implementing effective pollution control measures. SO2 and NOx are the main air
pollutants from the point source emissions. Various steps taken by NRL to monitor and
control the emission of SO2 and NOx are summarized below:
To ensure that all the pollution control facilities envisaged at the design stage have been implemented and are functioning properly. Clean fuels LNG (H2S content: Nil) and treated refinery fuel gas will be fired in the furnaces.
Stack monitoring to ensure proper functioning of different pollution control facilities attached to major stacks. Existing On-line analyzers will be used for monitoring SO2 and NOX.
A flue gas scrubber will be provided to reduce the SOx and particulate emissions from flue gases to local emissions stipulations. Combination of SCNR and SCR technologies along with low NOx burners will be used in CO incinerators to reduce NOx emissions. Air monitoring in the Work-zone to ensure proper functioning of fugitive emission control facilities. Vehicles and machineries would be regularly maintained so that emissions confirm to the applicable standards. Monitoring of ambient air quality through online AAQ monitoring system at three locations to measure/monitor the pollution level. Workers will be provided with adequate protective measures to protect them from inhaling dust. Design of the plant system to meet the OISD requirements.
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Provisions of the Safety Systems in the design with redundancy, and reliability are considered in depth. Operation of the plant by qualified manpower. Regular monitoring and review to ensure safe operation. Regular monitoring by Environmental Cell to demonstrate the compliance with Statutory limits in the public domain. Flare is envisaged for combustion of refinery off-gases.
Mitigation Measures for Fugitive emissions
The major sources of such fugitive emissions of Volatile Organic Compounds (VOCs) in the
refinery are the main processing area, tank farm area having storage tanks for crude oil and
lighter products and the loading/unloading gantry area. These fugitive emissions originate
from the static and dynamic joints and seals used in flanges, pumps, mixers, valve packing
and connection joints to the atmosphere like sampling and relief valves etc. In order to
minimize the fugitive emissions of VOCs, the following measures were taken during design
stage:
Provision of Close – Blow down (CBD) system for all the process units to minimize VOC
emission from the operations.
Minimum number of flanges, valves etc;
High grade gasket materials for packings;
Usage of state-of-the-art low leakage valves for new units
Usage of pumps with (single/double) mechanical seals;
Provision of floating roof storage tanks for volatile products storage;
Internal aluminium floating roof on tanks on lighter hydrocarbon service
Annual fugitive hydrocarbon emission monitoring survey as per Leak Detection and Repair
(LDAR) program is in place in refinery. Mitigation measures for minimization of Fugitive
emissions of VOCs include minimum number of flanges, valves, etc., high grade gasket
material for packing, usage of state of art low leakage valves preferably with bellow seals, etc.
11.3.2 Water Environment
During the operational phase impact on water environment can be due to two reasons,
firstly due to use of raw water and secondly due to disposal of treated effluent from the
plant.
The additional total raw water demand for the new refinery train will be around 1820 m3/
hr. The total raw water demand includes the raw water makeup for the CWTP, DM water
generation, BFW, service water, fire water etc is 2508 m3/hr (post-NREP).
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Process oily effluent of 90 m3/hr will be generated from the new refinery train and the
same will be received in the ETP. The final treated effluent will be disposed as per the
current refinery existing practice.
11.3.3 LAND ENVIRONMENT
During construction phase, surplus earth (if any) and construction debris may be
generated as well as metal scrap and packaging materials whereas during operational
phase, hazardous wastes expected to be generated from the proposed new facilities like
oily sludge, spent catalysts etc.
From proposed project, the spent catalyst will be sold or recycled as per existing
practices. All statutory rules / guidelines of MOEF / CPCB will be complied prior to
recycle, reclamation or sale of spent catalyst.
There will be additional generation of crude tank bottom sludge. All the sludge shall be
handled and treated as per Hazardous Waste Management Rules.
11.4 Environmental Monitoring Program
The proposed environmental monitoring program of the proposed project is given below:
Table 11.7: Proposed Environmental Monitoring Program during construction phase
Sl.No. Potential impact Action to be Followed
Parameters for
Monitoring Frequency of
Monitoring
1 Air Emissions
All equipment is operated within specified design parameters.
Random checks of equipment logs/ manuals
Periodic
Vehicle trips to be minimized to the extent possible.
Vehicle logs
Periodic during site clearance & construction activities
Any dry, dusty materials stored in sealed containers or prevented from blowing.
Absence of stockpiles or open containers of dusty materials.
Periodic during construction activities
Compaction of soil during various construction activities
Construction logs
Periodic during construction activities
2 Noise Night working is to be minimized.
Working hour records
Daily records
Generation of vehicular noise
Maintenance of records of vehicles
Daily records
Acoustic mufflers / Mufflers / Prior to use of
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Sl.No. Potential impact Action to be Followed
Parameters for
Monitoring Frequency of
Monitoring
enclosures to be provided in large engines
enclosures in place.
equipment.
Vehicle trips to be minimized to the extent possible
Vehicle logs
Periodic during construction activities
3 Soil Erosion
Protect topsoil stockpile wherever possible.
Effective cover in place.
Periodic during construction activities
4 Health
Employees and migrant labour health check ups
All relevant parameters including audiomerty
Regular check ups
5 Construction camps
Away from settlements and ensure disciplinary procedures. Avoid use of public infrastructural facilities such as power, gas and water and maintain hygienic conditions
Regular monitoring
Pre-construction
6 Waste Management
Identification & characterization of every waste arising from proposed activities as per prevalent waste management plan and which also identifies the procedures for collection, handling & disposal of each waste arising.
Comprehensive Waste Management Plan in place and available for inspection on-site. Compliance with Hazardous Wastes (Management and Handling Rules), 2008
Periodic check during construction activities
7 Fuel and oil leaks
Use designated fuel storage methods and ensure that oil spill response plan is in place
Visual inspection and monitoring of soil and ground water quality
Throughout construction period
8 Non-routine events and accidental releases
Plan to be drawn up, considering likely emergencies and steps required to prevent/limit consequences.
Mock drills and records of the same
Periodic during construction activities
9 Public and animal safety
Erection of warning barriers
Routine monitoring and checks
Throughout construction period
10 Water and waste water
Take care in disposal of Waste water generated
Discharge norms for effluents as
Periodic during construction
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Sl.No. Potential impact Action to be Followed
Parameters for
Monitoring Frequency of
Monitoring
such that soil and groundwater resources are protected.
given in permits
activities
Table 11.8: Proposed Environmental Monitoring Program during operational phase
Sl.No. Potential impact Action to be Followed
Parameters for
Monitoring Frequency of
Monitoring
1 Air Emissions
All equipment is operated within specified design parameters.
Random checks of equipment logs/ manuals
Periodic
Vehicle trips to be minimized to the extent possible.
Vehicle logs
Periodic during site clearance & construction activities
Any dry, dusty materials stored in sealed containers or prevented from blowing.
Absence of stockpiles or open containers of dusty materials.
Periodic during construction activities
Compaction of soil during various construction activities
Construction logs
Periodic during construction activities
2 Noise Night working is to be minimized.
Working hour records
Daily records
Generation of vehicular noise
Maintenance of records of vehicles
Daily records
Acoustic mufflers / enclosures to be provided in large engines
Mufflers / enclosures in place.
Prior to use of equipment.
Vehicle trips to be minimized to the extent possible
Vehicle logs
Periodic during construction activities
3 Soil Erosion
Protect topsoil stockpile wherever possible.
Effective cover in place.
Periodic during construction activities
4 Health
Employees and migrant labour health check ups
All relevant parameters including audiomerty
Regular check ups
5 Construction camps
Away from settlements and ensure disciplinary procedures. Avoid use of public
Regular monitoring
Pre-construction
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Sl.No. Potential impact Action to be Followed
Parameters for
Monitoring Frequency of
Monitoring
infrastructural facilities such as power, gas and water and maintain hygienic conditions
6 Waste Management
Identification & characterization of every waste arising from proposed activities as per prevalent waste management plan and which also identifies the procedures for collection, handling & disposal of each waste arising.
Comprehensive Waste Management Plan in place and available for inspection on-site. Compliance with Hazardous Wastes (Management and Handling Rules), 2008
Periodic check during construction activities
7 Fuel and oil leaks
Use designated fuel storage methods and ensure that oil spill response plan is in place
Visual inspection and monitoring of soil and ground water quality
Throughout construction period
8 Non-routine events and accidental releases
Plan to be drawn up, considering likely emergencies and steps required to prevent/limit consequences.
Mock drills and records of the same
Periodic during construction activities
9 Public and animal safety
Erection of warning barriers
Routine monitoring and checks
Throughout construction period
10 Water and waste water
Take care in disposal of Waste water generated such that soil and groundwater resources are protected.
Discharge norms for effluents as given in permits
Periodic during construction activities
11.5 Environmental Management Plan
The EMP in the design stage endeavors to mitigate the problems related to health, safety
and environment at the process technology selection stage and at the design stage.
A summary of proposed impacts, mitigation measures and proper environmental
management plan for both construction and operational phase is given in Table 11.9 and
11.10, respectively.
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Table 11.9: Summary of Impacts and Environmental Management Plan For Post
Expansion Phase Of NRL Refinery During Construction Phase
Sl. No.
Environmental Component
Activity/Aspect Impacts Mitigation Measures
Element of Environmental
Management Plan
1 Air Environment Foundation work
Digging, leveling work
Structural works
Very less conventional pollutants will be released during this phase due to construction works, vehicle exhausts which will not cross the specified limits because low value of background levels
Dust pollution will be suppressed using water sprinklers
Periodic maintenance of machinery, heavy vehicles
Regular monitoring of levels of conventional pollutants as per PCB, Assam guidelines
2 Water Environment
Maintenance of drainage and water supply network for Sanitation and waste water generation
Limited impact on surrounding water bodies/aquatic ecosystems/ground water due to soil erosion, leaching, waste water generation
Water requirement through existing raw water source
Proper sanitation
Waste water treatment through existing treatment plant
Provision for appropriate sanitary facility for construction workers
3 Land Environment
Land use change due to drilling, excavating
Land pollution of small magnitude due to solid waste generation
Overburden and construction waste will also be produced
Management of solid waste
Management of excavated solid and construction waste
Composting bio-degradable waste and disposal of non-bio-degradable waste in land fills
Construction waste will be used for back filling
4 Noise Environment
Noise from construction, heavy vehicle movements
Noise level will be more but within the permissible limits
Noise protection measures
Using ear muffs for workers while construction
Rules & regulations of Noise Standards will be followed
Greenbelt development for attenuating the noise levels
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Sl. No.
Environmental Component
Activity/Aspect Impacts Mitigation Measures
Element of Environmental
Management Plan
5 Socio-economic Environment
Rehabilitation & resettlement
More benefits to the local people
Employment opportunities to local skilled and unskilled people
Development of infrastructure, communications facility, drinking water supply, health etc.
Social and cultural development
Facilitation of hospital, school, club, stadium etc.
Regular health camp surrounding the plant
Implementation of NRL CSR Policy
6 Biological Environment
Land use change
Impact on flora and fauna will be minimal
Less impact on marine ecosystem
Creation of landscape with plantation
Conservation of biodiversity
Biological diversity Act and MoEF guidelines for conservation of species will be followed
Greenbelt development with more fruit bearing trees, avenue plantation etc. will be made
Table 11.10: Summary of Impacts and Environmental Management Plan for Post
Expansion Phase of NRL Refinery During Operation Phase
S.
No.
Environmental
Component Activity/Aspect Impacts
Mitigation
Measures
Element of
Environmental
Management
Plan
1 Air
Environment
Air emissions
(Conventiona
l)
Movement of
vehicles
Insignificant
impact as
conventional
pollutants
emission will be
within the
permissible
limits.
Compliance to
standards
Continuous
monitoring
Control air
emissions at
source
Treatment to
reduce air
emissions
Regular
monitoring of
the levels of
conventional
pollutants as
per PCB,
Assam
requirements
Regular
maintenance of
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S.
No.
Environmental
Component Activity/Aspect Impacts
Mitigation
Measures
Element of
Environmental
Management
Plan
vehicles and
equipment
2 Water
Environment
Operation of
new process
units and utilities
Limited impact on
surrounding water
bodies/aquatic
ecosystems/ground
water
Proper
management
of active and
domestic
waste water
Proper
design of
condenser
Cooling
systems
Rain water
harvesting
Liquid effluents
discharge will
be much below
discharge limits
of CPCB norms
Treatment of
domestic waste
and reuse of
water for
irrigation of
plantation/gree
n belt
Regular
monitoring of
the levels of
conventional
pollutants as
per PCB,
Assam norms
Implementation
of rain water
harvesting
3 Land
Environment
Disposal of solid
waste
Land pollution of
small magnitude
due to solid waste
generation
Management
of plant and
domestic solid
waste
Development
of green belt
Treatment and
disposal of
solid waste as
per
CPCB/PCB,
Assam norms
Disposal of
non-
degradable
waste in proper
land fills
Development
of green belt in
the plant area
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S.
No.
Environmental
Component Activity/Aspect Impacts
Mitigation
Measures
Element of
Environmental
Management
Plan
4 Noise
Environment
Noise from
plants, DG sets
etc.
Insignificant noise
levels in public
domain
Control of
noise levels
within
permissible
limits
Development
of barriers to
control noise
Follow
occupational
health and
safety
measures
Noise levels
due to plant
activities will be
controlled
within
permissible
limits
Noise
generating
units will be
housed in
acoustic
enclosures
Development
of green belt
will act as a
barrier
Personal
Protective
Equipment
(PPE) will be
provided to
workers
wherever
required
Noise
standards of
CPCB will be
adhered with
5 Socio-
economic
Environment
CSR Activities
More benefits to
the local people
Employment
generation
Awareness
camps
Medical
camps
Implementatio
n of social
welfare
schemes for
the local
people
Awareness on
Social benefits
among local
people through
seminars,
workshops,
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S.
No.
Environmental
Component Activity/Aspect Impacts
Mitigation
Measures
Element of
Environmental
Management
Plan
exhibitions
Preference will
be given to
local people
Ensure
participation of
local people in
cultural events
to create social
harmony and
goodwill
6 Biological
Environment
Discharge/
releases to air &
water.
Impact on
terrestrial flora and
fauna
Adequate
protection
measures
should be
ensured in
design for
conservation
of flora and
fauna
Development
of green belt
with
indigenous
tree species
Control of
eutrophication
by treatment
and reuse of
waste water
Regular
monitoring of
biodiversity
and listing the
same
The plant
design will
envisage the
conservation
of flora &
fauna.
7 Health, Safety
& Environment
Conventional
emissions
Health effects of
pollutants
Occupational
health &
safety
Safety in
plant design
Monitoring &
compliance
to OSHA
standards
Safety in plant
design as per
OSHA norms
Regular
monitoring of
the pollutant
levels in
different
components of
surrounding
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S.
No.
Environmental
Component Activity/Aspect Impacts
Mitigation
Measures
Element of
Environmental
Management
Plan
environment
Regular health
check-up of the
workers
Hazard
analysis and
safety
measures in
work place to
reduce the
undue risk to
employees,
members of
public &
environment as
per OSHA
requirements
EMP
implementation
and
environmental
monitoring
program to
evaluate the
effectiveness of
environmental
management
systems.
11.6 Project Benefits
Proposed Refinery capacity expansion project will enable NRL to increase its production of
BS VI grade MS and HSD. There will also be corresponding increment in the naphtha
exported from NRL.
Also, the BS- VI MS and HSD with low sulphur will help in significant reduction of vehicular
emission of SO2 from its present level. The proposed project will be executed by installing
a new parallel refinery of 6.0 MMTPA capacity.
The benefits of the proposed project can be summarized as:
Increase in production of high grade BS VI Motor Fuel and HSD
Reduction in vehicular emissions from present levels due to use of cleaner fuel.
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Development of facilities around the refinery complex thereby enhancing the
livelihood of the people in the refinery vicinity.
11.7 Risk Assessment Study
MAJOR OBSERVATIONS & RECOMMENDATIONS The major credible failure scenarios for the facilities under scope of work are modeled in terms of hydrocarbon release rate, dispersion, flammability & toxic characteristics and detailed consequence analysis of the outcome is presented in this Risk Analysis (RA) report.
The summary of major observations & recommendations of RA study for the refinery expansion Project are recorded below. These recommendations are based on analysis of the consequence results due to most credible leak scenario (20 mm leak size) from various process systems under the present project.
A. CDU/VDU
It is observed from the impact contours on GIS map (Figures 1.1.1 to 1.4.4 in annexure-I) and the tabulated consequence distance as provided in the annexure-II due to various leak scenarios from the process unit that the effect zone of flash fire is by and large limited within the unit and adjoining roads surrounding the unit. Maximum flash fire distance under the considered leak scenarios is ~78 m from the leak point. Further, it is observed that the jet fire radiation intensity of 37.5 kW/m2 is extending up to ~45 m from leak point which may result in damage of the process equipment/tech. structure and adjoining pipe rack located in the northern side of the unit. No major impact is envisaged from pool fire scenario except some minor damage and health issue if action not taken within time. 5 psi overpressure is expected to reach ~89 from the leak point and may impact the pipe rack in the northern side of the unit.
In view of the above observations from various credible failure scenarios in the unit and their possible impact on the surrounding facilities, the following points are recommended to enhance the overall safety of the unit/plant;
a. Consider fire proofing requirement for the pipe rack structure on the northern side of the unit during the detail engg. stage. It is also suggested to ensure availability of active fire protection for the process system impacted by 37.5 kW/m2 radiation intensity.
b. Ensure adequate nos. of F&G detectors (open path/point type) are installed in the unit based on prevailing wind direction.
c. Ensure that the crude pump is located as far as possible from the unit B/L during detail engg. stage.
B. FCCU & PRU
It is observed from the impact contours on GIS map (Figures 2.1.1 to 2.6.3 in annexure-I) and the tabulated consequence distance as provided in the annexure-II due to various leak scenarios from the process unit that the effect zone of flash fire is by and large limited within the unit and doesn’t reach on the ground in some of the cases. Maximum flash fire distance under the considered leak scenarios is ~45 m from the leak point. Further, it is observed that the jet fire radiation intensity of 37.5 kW/m2 is extending up to ~47 m from leak point which may result in damage of the process equipment/tech. structure provided within the unit. No major impact is envisaged from pool fire scenario except some minor damage and health issue if action not taken within time. 5 psi overpressure is expected to reach ~51 from the leak point and may impact the tech structure and furnace.
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In view of the above observations from various credible failure scenarios in the unit and their possible impact on the surrounding facilities, the following points are recommended to enhance the overall safety of the unit/plant;
a. Ensure availability of active/Passive fire protection for the process system impacted by 37.5 kW/m2 radiation intensity.
b. Ensure adequate nos. of F&G detectors (open path/point type) are installed in the unit based prevailing wind direction.
c. Ensure that SRR of FCCU Block is made blast resistant and positively pressurized.
C. MS BLOCK (NHT/CCR/ISOM)
It is observed from the impact contours on GIS map (Figures 3.1.1 to 3.5.4, 4.1.1 to 4.4.3 & 5.1.1 to 5.3.4 in annexure-I) and the tabulated consequence distance as provided in the annexure-II due to various leak scenarios from the process units that the effect zone of flash fire is extending beyond the boundary of the unit. Maximum flash fire distance under the considered leak scenarios is ~91 m from the leak point. Further, it is observed that the jet fire radiation intensity of 37.5 kW/m2 is extending up to ~57 m from leak point which may result in damage of the process equipment and pipe rack provided on the western side of the unit. No major impact is envisaged from pool fire scenario except some minor damage and health issue if action not taken within time. 5 psi overpressure is expected to reach ~112 m from the leak point and may impact the tech. structure and furnace leading to their possible damage. IDLH value of benzene, toluene and H2S is expected to reach up to ~35 m, ~630 m and ~413 m respectively from the leak point.
In view of the above observations from various credible failure scenarios in the units and their possible impact on the surrounding facilities, the following points are recommended to enhance the overall safety of the unit/plant;
a. Ensure availability of active/Passive fire protection for the process system impacted by 37.5 kW/m2 radiation intensity.
b. Ensure adequate nos. of F&G detectors (open path/point type) are provided in the unit based on prevailing wind direction.
c. Ensure the availability of assembly point outside the IDLH value (for Toluene) from the unit at a suitable location (beyond~630 m) in upwind direction as the toxic contour is impacting the existing occupied buildings e.g. lab building, medical centre etc.
d. Relocate MM shelter to a suitable location outside the 2 psi overpressure zone distance, in case the same is an occupied place.
e. Ensure that SRR of MS Block is made blast resistant and positively pressurized. D. DHDT
It is observed from the impact contours on GIS map (Figures 6.1.1 to 6.4.4 in annexure-I) and the tabulated consequence distance as provided in the annexure-II due to various leak scenarios from the process unit that the effect zone of flash fire is extending beyond the boundary of the unit and in some cases doesn’t reach on the ground. Maximum flash fire distance under the considered leak scenarios is ~135 m from the leak point. Further, it is observed that the jet fire radiation intensity of 37.5 kW/m2 is extending up to ~54 m from leak point which may result in damage of the process equipment and tech. structure within this zone. No major impact is envisaged from pool fire scenario except some minor damage and health issue if action not taken within time. 5 psi overpressure is expected to reach ~155 m from the leak point and may impact the ware house, tech. structure and furnace leading to their possible damage. IDLH value of H2S is expected to reach up to ~552 m from the leak point and extending beyond the plant boundary limit.
As per the attached MOM in Annexure-III, the possibility of retaining the canteen facility in the proposed CA/IG area was studied. It is observed from the various impact contour that the canteen facility is not impacted by the considered failure scenario in the proposed
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nearby process facility however, the over pressure contour of 2 psi is passing very close to the canteen facility and since the leak point may shift during detail engg. stage hence the possibility of damage to canteen and potential workers/personnel safety hazard cannot be totally overlooked at this stage of the study. In addition, canteen will be a potential ignition source near the process area and hence may be an additional cause of concern during the operation life cycle.
In line with the above observations from various credible failure scenarios in the unit and their possible impact on the surrounding facilities, the following points are recommended to enhance the overall safety of the unit/plant;
a. Ensure availability of active fire protection for the process system impacted by 37.5 kW/m2 radiation intensity in the unit.
b. Ensure adequate nos. of F&G detectors (open path/point type) are installed in the unit based on prevailing wind direction.
c. It is suggested to ensure that the plant boundary limit is extended in the southern side to limit the H2S IDLH conc. within the plant boundary. It is further advised to ensure availability of assembly point outside the IDLH value from the unit at a suitable location (beyond~552 m) in upwind direction.
d. Explore the possibility of inventory isolation on actuation of F&G detector during engg. phase of the project to minimize inventory release in case of leakage.
e. It is advised to relocate MM shelter to a suitable location outside the 2 psi overpressure zone, in case the same is an occupied place.
f. Ensure DHDT SRR is positively pressurized to minimize chances of HC/H2S gas ingress in the building.
g. Ensure blast resistant design for RUF/HGU/DHT SRR building. h. As proposed in the plot plan, ensure that ware house is shifted to a suitable location
outside the unit at a safe location. i. It is suggested to relocate the existing canteen to a safer location away from the
process area, as the possibility of damage to canteen building can’t be totally ignored at this stage.
However, if existing canteen is to be retained at present location then ensure that stripper reflux pump of DHDT is located at ~200 m (min.) from the canteen building during detail engg. stage. The location of canteen building should also be reviewed with respect to QRA study which is suggested to be carried out during detail engg. stage of the project. E. HGU
It is observed from the impact contours on GIS map (Figures 7.1.1 to 7.2.3 in annexure-I) and the tabulated consequence distance as provided in the annexure-II due to various leak scenarios from the process unit that the effect zone of flash fire is extending beyond the boundary of the unit. Maximum flash fire distance under the considered leak scenarios is ~61 m from the leak point. Further, it is observed that the jet fire radiation intensity of 37.5 kW/m2 is extending up to ~58 m from leak point which may result in damage of the process equipment and tech. structure falling in its range. No major impact is envisaged from pool fire scenario except some minor damage and health issue if action is not taken within time. 5 psi overpressure is expected to reach ~55 m from the leak point and may impact the HGU SRR, tech. structure and the reactor leading to their possible damage.
In line with the above observations from various credible failure scenarios in the unit and their possible impact on the surrounding facilities, the following points are recommended to enhance the overall safety of the unit/plant;
a. Ensure HGU SRR building is positively pressurized.
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b. Ensure blast resistant design for HGU SRR building.
c. Ensure H2 and HC gas detectors are provided at suitable location based on prevailing wind direction at the facility.
d. As LFL contour is reaching up to the HGU and DHT substation from source of gas release hence it is suggested that subtstation building shall be kept positively pressurised.
F. SULPHUR BLOCK (SWS/ARU/SRU)
It is observed from the impact contours on GIS map (Figures 8.1.1 to 8.5.1 in annexure-I) and the tabulated consequence distance as provided in the annexure-II due to various leak scenarios from the process units that the effect zone of flash fire, pool fire and overpressure is not realized at the grade level. IDLH conc. of H2S and NH3 are realized above the grade level and the gas disperses below IDLH value before reaching on the ground in case of leakage from respective H2S and NH3 strippers.
An analysis of impact contours due to leakage from Acid Gas KO Drum, H2S Rich Sour Gas KO Drum and NH3 Rich Sour Gas KO Drum shows that IDLH conc. of H2S is reaching up to ~300 m and may extend beyond the southern boundary of the plant. The toxic cloud may reach up to a height of ~12 m before dispersing in the atmosphere below the IDLH conc. Further, IDLH conc. of NH3 is not realized in this scenario.
In view of the above observations from various credible failure scenarios, and their possible impact on the surrounding facilities, the following points are recommended to enhance the overall safety of the unit/plant;
a. Install H2S detector at suitable locations near the H2S stripper top outlet for early detection of any toxic leakage and thereby ensuring suitable action to be taken by operator within time.
b. Install H2S detector at suitable locations near the NH3 stripper top outlet for early detection of any toxic leakage and thereby ensuring suitable action to be taken by operator within time.
c. Install H2S detector at suitable locations near the Amine regenerator top outlet for early detection of any toxic gas leakage and thereby ensuring suitable action to be taken by operator on time.
d. Install H2S detector at suitable locations near the Acid Gas KOD, H2S Rich Sour Gas KOD and NH3 Rich Sour Gas KOD for early detection of any toxic gas leakage and thereby ensuring suitable action to be taken by operator on time. This scenario shall be also covered in Onsite/Offsite disaster management plan.
e. Ensure availability of portable H2S detector with the operator/plant personnel while working near the H2S/NH3 Stripper, Acid Gas/H2S Rich Sour Gas/NH3 Rich Sour Gas KOD and Amine Regenerator.
f. Ensure availability of assembly point at a distance ~300 m from the sulphur block in upwind direction for personnel working in Slabbing & Packing & warehouse section. It is advised that personnel/workers should immediately evacuate the area and move to assembly point in case of toxic gas alarm. Assembly point to be identified and marked on the plot plan.
Further the person working in this area should be adequately trained to response suitably in case of H2S leakage and move to assembly point as identified. This scenario shall be also covered in Onsite/Offsite disaster management plan.
It should be noted that gas retaining wall won’t help much in this scenario as dispersion of gas cloud will depend on the prevailing weather condition of the day such scenario happens.
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G. RUF
It is observed from the impact contours on GIS map (Figures 9.1.1 to 9.7.4 in annexure-I) and the tabulated consequence distance as provided in the annexure-II due to various leak scenarios from the process unit that the effect zone of flash fire is by and large limited near the boundary of the unit and adjoining road on the eastern side of the facility. Maximum flash fire distance under the considered leak scenarios is ~67 m from the leak point. Further, it is observed that the jet fire radiation intensity of 37.5 kW/m2 is extending up to ~47 m from leak point which may result in damage of the process equipment and tech. structure falling within this range. Impact zone of 37.5 kW/m2 fire radiation intensity due to pool fire is reaching up to ~53 m from the leak point which may result in damage of tech. structure and process equipment falling within this zone. 5 psi overpressure is expected to reach ~75 m from the leak point and may impact the pipe rack on eastern side of the unit and tech. structure inside the unit leading to their possible damage. It is to be noted that majority of equipment in this unit handles toxic H2S gas along with other hydrocarbon with H2S conc. reaching up to 20 mol% (approx).
The maximum IDLH distance for H2S as reported by the software based on the credible leak scenario is ~714 m.
In view of the above observations from various credible leak scenarios in the unit and their possible impact, the following points are recommended to enhance the overall safety of the plant personnel and population outside the plant boundary;
a. It is suggested to minimise the potential vulnerable leakage sources like flange joints, small bore pipings in the proces system containing high quantity toxic H2S component during the design. Further explore possibilities to minimize the inventory in the vessel/equipment to the maximum extent during the design. Equipment containing high % of H2S to be located such that they are at maximum distance from plant boundary.
b. Assembly point for plant personnel/staffs to be identified to assemble in case of any emergency scenario. Assembly point to be located upwind of the facility and should be marked on the plot plan.
c. Install adequate no. of H2S gas detector at suitable locations based on prevailing wind direction for early detection of any leakage from the equipment in order to take necessary action on time by the operator.
d. Ensure continuous availability of portable H2S detector with the workers/operators while working in RUF unit.
H. DCU
It is observed from the impact contours on GIS map (Figures 10.1.1 to 10.4.3 in annexure-I) and the tabulated consequence distance as provided in the annexure-II due to various leak scenarios from the process unit that the effect zone of flash fire is by and large limited near the boundary of the unit and adjoining road on the eastern, western and southern side of the facility. Maximum flash fire distance under the considered leak scenarios is ~80 m from the leak point. Further, it is observed that the jet fire radiation intensity of 37.5 kW/m2 is extending up to ~47 m from leak point which may result in damage of the process equipment and tech. structure falling within this range. Impact zone of 37.5 kW/m2 fire radiation intensity due to pool fire is reaching up to ~53 m from the leak point which may result in damage of tech. structure and process equipment falling in its zone. 5 psi overpressure is expected to reach ~76 m from the leak point and may impact tech. structure inside the unit and damage to existing crusher house and silos on the eastern side of the unit. The maximum IDLH distance for H2S based on the
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credible leak scenario is ~348 m and is impacting the existing control room, buildings and offices.
In view of the above observations from various credible failure scenarios, and their possible impact on the surrounding facilities, the following points are recommended to enhance the overall safety of the unit/plant;
a. Assembly point for plant personnel/staffs to be identified and marked on the plot plan to assemble in case of any emergency scenario. Assembly point to be located upwind of the unit.
b. Review shifting of existing silo, Crusher house & MM SHED to a suitable location outide 2 psi over pressure zone in case they are occupied.
c. Install HC & H2S gas detector at suitable locations based on prevailing wind direction for early detection of any leakage from the equipment and thereby allowing operator to take necessary action on time.
I. FCC GASOLINE HDT
It is observed from the impact contours on GIS map (Figures 11.1.1 to 11.3.3 in annexure-I) and the tabulated consequence distance as provided in the annexure-II due to various leak scenarios from the process unit that the effect zone of flash fire is extending beyond the boundary of the unit and overlapping the adjacent CDU/VDU, FCCU, FGHT & Utility substation and FCCU, FGHT & CDU/VDU SRR facilities along with the adjoining road on the northern, southern and western side of the facility. Maximum flash fire distance under the considered leak scenarios is ~84 m from the leak point. Further, it is observed that the jet fire radiation intensity of 37.5 kW/m2 is extending up to ~53 m from leak point which may result in damage of the process equipment, tech. structure and pipe rack structure (on the northern side) falling in this range. Impact zone of 37.5 kW/m2 fire radiation intensity due to pool fire is not realized in this scenario. 5 psi overpressure is expected to reach ~168 m from the leak point and may impact tech. structure, furnace inside the unit and damage to proposed FCCU, FGHT, HGU & CDU/VDU SRR buildings.
In view of the above observations from various credible failure scenarios in the unit and their possible impact on the surrounding facilities, the following points are recommended to enhance the overall safety of the unit/plant;
a. Ensure SRR CDU/VDU, SRR FCCU, SRR HGU and SRR Gasoline HDT buildings are positively pressurized.
b. Install F&G detectors based on prevailing wind direction for early detection of any leakage in the unit, so that suitable action can be taken by operator.
c. As LFL contour is reaching upto the CDU/VDU, FCCU, FGHT & Utility substation from the source of release hence it is suggested that sub-station building shall be kept positively pressurised.
J. OFFSITE TANKS/BULLETS
It is observed from the impact contours on GIS map (Figures 12.1.1 to 12.9.3 in annexure-I) and the tabulated consequence distance as provided in the annexure-II due to various leak scenarios that;
For crude oil storage tank the effect zone of flash fire is extending beyond the dyke area in the northern side of the facility and impacting the existing operator room (under Bio refinery project). Maximum flash fire distance under the considered leak scenarios is ~44 m from the tank leak point. Further, it is observed that the jet fire radiation intensity of 8 kW/m2 is extending up to ~16 m from leak point. Impact zone of 8 kW/m2 fire radiation intensity due to pool fire is reaching up to ~27 m from the leak point. 5 psi overpressure is expected to reach
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~51 m from the leak point and may impact the existing operator room and MCC leading to their possible damage. 2/3 psi overpressure may lead to damage of cooling tower- bay no 6.
In view of the above observations from various credible failure scenarios in the Crude tank and their possible impact on the surrounding facilities, the following points are suggested to mitigate/minimize the hazardous impact;
a. MCC (if occupied) & Operator room to be of blast proof design and positively pressurized or shall be shifted to a safe location outside the 2 psi overpressure zone.
b. Firewall to be considered in the dyke to avoid spread of radiation from one tank to another and the same to be depicted in plot plan/provided in a note.
c. Install F&G detectors at suitable locations based on prevailing wind direction for early detection of any leakage in the crude tank dyke area/pipe manifold area.
d. Ensure provision of active/Passive fire protection in the design for the crude tanks.
For the LPG bullets, installed along with the propylene bullets, effect zone of flash fire is extending beyond the bullet area in the eastern and southern side of the facility. Maximum flash fire distance under the considered leak scenarios is ~49 m from the bullet outlet manifold line. Further, it is observed that the jet fire radiation intensity of 8 kW/m2 is extending up to ~56 m from leak point. 5 psi overpressure is expected to reach ~52 m from the leak point. 2/3/5 psi overpressure may reach up to New Operator cabin (on eastern side) and can lead to its possible damage.
For Propylene bullets effect zone of flash fire is extending beyond the storage area in the eastern and southern side of the bullets. Maximum flash fire distance under the considered leak scenarios is ~42 m from the bullet outlet line. Further, it is observed that the jet fire radiation intensity of 8 kW/m2 is extending up to ~58 m from leak point. Radiation intensity of 37.5 kW/m2 is reaching up to ~44 m and may impact the pipe rack structure on the western side of the facility. 5 psi overpressure is expected to reach ~50 m from the leak point. 2/3/5 psi overpressure effects may reach up to New Operator cabin (on eastern side) and can lead to its possible damage.
In view of the above observations from various credible failure scenarios in the LPG and Propylene Bullet area and their possible impact on the surrounding facilities, the following points are suggested to mitigate/minimize the hazardous impact;
a. Ensure that the new operator room (as mentioned on the Overall Plot plan) at the eastern side of Propylene/LPG bullet is blast resistant or relocate the same to a safe location outside the 2 psi over pressure zone.
b. Install suitable no. of F&G detectors based on prevailing wind direction for early detection of any leakage in the Propylene/LPG bullet area/pipe manifold area.
c. Ensure fire proofing requirement for pipe rack structure on the western side of the Propylene/LPG mounded bullet.
For MS tank, effect zone of flash fire is limited within the dyke area. Maximum flash fire distance under the considered leak scenarios is ~17 m from the tank. Further, it is observed that the jet fire radiation intensity of 8 kW/m2 is extending up to ~11 m from leak point. Impact zone of 8 kW/m2 fire radiation intensity due to pool fire is reaching up to ~27 m from the leak point and can impact the proposed pipe rack at the northern
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side of the storage tank. 5 psi overpressure is expected to reach ~13 m from the leak point and can possibly lead to pipe rack structure damage.
In view of the above observations, the following are suggested to mitigate/minimize the hazardous impact;
a. Ensure fire proofing requirement for pipe rack structure at the northern side of the storage tank. Ensure adequate distance is maintained between the dyke and the pipe rack as per industry norms.
b. Install adequate nos. of F&G detectors based on prevailing wind direction at the facility for early detection of any leakage in the MS Tank /pipe manifold area.
K. OFFSITE PUMPS
It is observed from the impact contours on GIS map (Figures 13.1.1 to 13.9.4 in annexure-I) and the tabulated consequence distance as provided in the annexure-II due to various leak scenarios that;
For DHDT Feed pump, the effect zone of flash fire is limited near the pump house. Maximum flash fire distance under the considered leak scenario is ~11 m from the pump. Further, it is observed that the jet fire radiation intensity of 8 kW/m2 is extending up to ~23 m from leak point. Impact zone of 8 kW/m2 fire radiation intensity due to pool fire is reaching up to ~39 m from the leak point and may result in damage of the FCC Feed tank. 5 psi overpressure is expected to reach ~12 m from the leak point.
In view of the above observations, the following are suggested to improve the safety of the unit/plant;
a. Ensure active fire protection is provided in the design for the FCC Feed tanks.
b. Install adequate nos. of F&G detectors based on prevailing wind direction at the facility for early detection of any leakage in the DHDT Feed Pump area.
For NHT Feed pump, the effect zone of flash fire is extending up to ~152 from the leak point. Further, it is observed that the jet fire radiation intensity of 8 kW/m2 is extending up to ~38 m from leak point. Impact zone due to pool fire is not realized in this scenario. Blast overpressure of 5 psi is extending up to ~179 m from the leak point and may result in damage to proposed SRR OFFSITE building.
In view of the above observations, the following are suggested to improve the safety of the unit/plant;
a. Install adequate nos. of F&G detectors based on prevailing wind directiony for early detection of any leakage in the NHT Feed Pump area.
b. Ensure SRR Offsite building is blast resistant design and positively pressurized or it is shifted to safe location outside the 2 psi overpressure zone (~203 m).
For Reformate pump, the effect zone of flash fire is extending up to ~13 from the leak point. Further, it is observed that the jet fire radiation intensity of 8 kW/m2 is extending up to ~26 m from leak point. Impact zone of 8 kW/m2 fire radiation intensity due to pool fire is reaching up to ~37 m from the leak point and may result in damage of the pipe rack provided at the southern end of the facility. Blast overpressure of 5 psi is extending up to ~12 m from the leak point and may result in damage to existing oil storage facility.
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In view of the above observations, the following are suggested to improve the safety of the unit/plant;
a. Install adequate nos. of F&G detectors based on prevailing wind direction at the facility for early detection of any leakage in the Reformate Pump area.
b. Ensure fire proofing requirement in the design for pipe rack structure at the southern side of the reformate pump.
c. Relocate the lube oil storage facility near HSD tanks outside the 2 psi over pressure zone, in case the oil storage doesn’t have any dyke and there is possibility of fire escalation spreading to nearby process area.
L. LPG GANTRY
It is observed from the impact contours on GIS map (Figures 14.1.1(a) to 14.2.3(b) in annexure-I) and the tabulated consequence distance as provided in the annexure-II due to various leak scenarios that in case of hose rupture the flash fire zone is extending up to a distance of ~142 m and Jet fire radiation intensity of 8 kW/m2 is extending up to ~63 m from leak point. Additionally, Blast overpressure of 2, 3 and 5 psi is extending up to ~197 m, 182 m and 171 m respectively from the leak point endangering various existing and new buildings on the southern and northern side of the proposed gantry location.
In view of the above observations the following are suggested to mitigate/minimize the hazardous impact on the surrounding area;
a. Relocate scale room, control room, Main. Building, store, Admin canteen building to a suitable location outside the 2 psi over pressure zone. If shifting of control room is not possible then blast resistant design for control room to be ensured.
b. Ensure existing DG Room and substation & new substation Offsite are positively pressurized or shift the same to a non hazardous location outside the flash fire zone.
c. Ensure blast resistant design for SRR Offsite building.
M. GENERAL RECOMMENDATIONS FOR THE PROPOSED PROJECT
a. Updated safe evacuation plan should be made available for the units based on revised layout as part of Disaster Management Plan and should also be implemented. Emergency exit for the new process plant area to be identified and marked on revised plot plan.
b. Access road around the new hydrocarbon facilities should be classified and restricted for vehicle movement except for handling emergency situation/crucial maintenance activities.
c. Proper checking of personnel at entry gates for inflammable materials to be ensured to avoid presence of any unidentified source of ignition entering into the plant area.
d. It is advised to carry portable H2S gas detector while working in the area
near the facilities handling high conc. of H2S in the process fluid. e. Instrument tapping, small bore tapping and process equipment should be
inspected regularly during operation for integrity check. Periodic health check of equipment, instruments and maintenance of all equipment & piping are required to be ensured. Periodic calibration of instruments and
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testing of alarms, trips, interlocks should be given due attention under the existing operation & maintenance philosophy of the units.
f. As the work will progress in an existing facility, hence it is advised that proper barricading of the construction area to be done prior to installation of the new facilities. It is advised to develop the Barricading Philosophy for this Project and the same to be followed by owner/contractor during various stages of the project execution.
g. It is suggested to provide H2S and HC gas detectors along with hooters and alarm along the barricade during construction phase, if there is possibility of gas ingress in the construction area from the process facility operating in the vicinity.
h. It is advised to carry out HAZID (Hazard Identification) study of the project facilities
and ensure recommendations are implemented suitably.
i. SIMOPS study to be carried out for construction/commissioning stage to identify potential hidden hazards associated with the installation of the new facilities and suggest mitigating measures.
j. It is suggested to carry out QRA (Quantitative Risk Assessment) Study of the
complete facilities (including new one) of the refinery during engg. stage of the Project.
k. Mock drills to be organized at organization level to ensure preparedness of the
operators/personnel’s working in premises for handling any hazardous situation and safe evacuation to identified area.
l. It is suggested to ensure that any new gate provided for vehicle entry is round the
clock guarded during construction and post-commissioning stages. Any entry/exit to/from the plant area under the proposed project should be properly checked and recorded in the Vehicle/Personnel Movement entry log register.
In case, these new gates are to be discarded post-commissioning activities of facilities under project then dismantled boundary wall shall again be erected as per existing oil industry norms.
m. It shall be ensured and checked that all vehicles entering the plant area are
provided with spark arrestors at the exhaust.
n. It is suggested that periodic (by operators) and in service inspection (by certified inspector) of the hydrocarbon tanks/bullets is carried out on regular basis.
o. It is suggested to provide suitable fire protection system as applicable and fire
fighting facilities for the new project facilities as per standards.
p. It is recommended that all workers, working near the leakage area shall wear special breathing equipment while attending the leak. Workers/Personnel not wearing the special breathing equipment should immediately leave the area and move to safe location. This should be covered under SOP (Standard Operating Procedure) of the facilities.
q. It is suggested to install permanent CCTV facilities for better monitoring the new
units/furnace areas from control room.
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11.8 CORPORATE ENVIRONMENT RESPONSIBILITY (CER)
Various CER activities will be carried out by NRL in the vicinity of proposed project area with budget during next 5 years. The budget for CER is Rs. 36.51 Crores (approx. 0.1616 % of total project cost in line with MoEFCC notification vide F.No.22-65/2017-IA.III; dated: 01.05.2018) This CER fund (7.3 crores per year) will be spent in various CER activities like Solar Lighting/Solar pump (Irrigation) system, Drinking Water Facilities, greenbelt development, Air quality monitoring in surrounding area etc. for 5 years in addition to the cost envisaged for the implementation of the EIA/EMP which includes the measures for the pollution control, environmental protection and conservation.
11.9 PUBLIC HEARING (PH)
Based on the Terms of Reference (TOR), granted to NRL vide letter F. No. No. J-11011/274/2015-IA II (I) dated 21st June, 2018, NRL prepared the draft EIA report and submitted an application to Pollution Control Board, Assam, for organizing public hearing for Refinery Expansion from 3.0 TO 9.0 MMTPA at Numaligarh, Assam. Public consultation for the proposed project expansion was held on 25.10.2019 at Panka Panchayat Field, Chaurabasti Village,P.O.:Kanaighat, District-Golaghat– 785699. The press notification indicating date and venue of the public hearing was issued by Pollution Control Board, Assam and the same was published in newspapers namely in two assamese daily newspaper, Dainik Janambhumi & Axomia Pratidin; dated: 14.09.2019 and in one English newspaper the Assam tribune; dated: 14.09.2019 inviting suggestions, views and objections on matters relating to environmental aspects of the proposed project and venue, date & timings of Public Hearing. Minutes of public hearing conducted on 25.10.2019 at Panka Panchayat Field, Chaurabasti Village,P.O.:Kanaighat, District-Golaghat– 785699 for refinery expansion from 3.0 to 9.0 MMTPA of M/s Numaligarh Refinery Limited, Numaligarh, Assam. Public Hearing was commenced at 11:00 A.M. Friday on 25.10.2019. The hearing was presided over by the Deputy Commissioner, Golaghat, Shri. Dhiren Hazarika and Shri. Pankaj Kr. Dutta, EE, Pollution Control Board, Assam welcomed the gathering. Shri. Pankaj Kr. Dutta, EE, Pollution Control Board, Assam explained the procedure of public hearing process and asked the project proponent to present the project details. Project Proponent, NRL, made a brief introduction about their project expansion. After the deliberations were made by the public, EE, Pollution Control Board, Assam summarized various issues raised by the public and invited the project proponent to offer their views on those issues. Project Proponent put forth his views on the issues raised by the Public. Minutes of Meeting (MoM) of public hearing attached as Annexure-XV along with attendance sheet & photographs.
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11.10 A brief details of proposed developmental activities/ancillary facilities for Numaligarh Refinery Expansion Project (NREP) in No Development Zone (NDZ):
Background of No Development Zone (NDZ) -
The Environmental Approval (EA) for setting up 3 MMTPA grass root Numaligarh Refinery was issued to IBP Ltd on 31.05.1991 by MoEFCC (EA is attached as Annexure XVI). Numaligarh Refinery Ltd. was incorporated as company in April, 1993. In the condition 4 of the said Environmental Approval, it was stated that - “No Development Zone must be notified before the project construction starts within a radius of 15 KM around the refinery site. Except towards the northwest where the no development zone would extend into the eastern boundary of the Kaziranga National Park”. Accordingly, MoEFCC, vide gazette notification dated 05.07.1996 notified NDZ all around the Numaligarh Refinery Premises with the following direction from the date of publication of the notification that states: “Expansion of industrial area, townships, infrastructure facilities and such other activities which could lead to pollution and congestion shall not be allowed within "No Development Zone" specified in the Appendix to this notification, except with the prior approval of the Central Government”. The Gazette Notification on NDZ has been attached with Annexure XVI. In view of the same, prior permission from MoEF&CC to be obtained to carry out any developmental activities / setting up ancillary facilities in the proposed locations in NDZ.
Proposed developmental activities / ancillary facilities in NDZ: Cabinet Committee of Economic Affairs approved Numaligarh Refinery Expansion Project (NREP) on 16.01.2019 at an estimated cost of Rs.22,594 Cr. for:
Refinery expansion from 3MMTPA to 9MMTPA
Crude pipeline from Paradip to Numaligarh (1400KM approx.)
Product Pipeline from Numaligarh to Siliguri (650KM approx.)
The main process units, utilities & off sites, tank farms etc. under the proposed NREP will be accommodated inside the existing refinery premises. However, for some developmental activities / ancillary facilities related to NREP, it is envisaged that some additional land areas are required during project execution which includes:
Storage Yard / Warehouse,
Fabrication Yard,
RMC Batching Plant,
Labour Camps,
Bank, Post Office (after relocating from existing refinery premises)
All Details covered regarding proposed additional land plots are given in this EIA Report under Chapter-7 of Additional Studies.
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CHAPTER-12
DISCLOSURE OF CONSULTANTS
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12.1 GENERAL INFORMATION
Name of Organization: Engineers India Limited Address: Head - Environment, Water & Safety Division
Tower-I, Ground floor, R&D centre, Engineers India Limited, Gurgaon (On NH-8), Haryana-122001 Telephone Nos. : 0124-3802034 Email: [email protected]
12.2 ESTABLISHMENT
Engineers India Limited (EIL) was established in 1965 to provide engineering and related services for Petroleum Refineries and other industrial projects. Over the years, it has diversified into and excelled in various fields. EIL has emerged as Asia's leading design, engineering and turnkey contracting company in Petroleum Refining, Petrochemicals, Pipelines, Onshore Oil & Gas, Mining & Metallurgy, Offshore Oil & Gas, Terminals & Storages and Infrastructure. EIL provides a wide range of design, engineering, procurement, construction supervision, commissioning assistance and project management as well as EPC services. It also provides specialist services such as heat & mass transfer equipment design, environment engineering, information technology, specialist materials and maintenance, plant operations & safety including HAZOPS & Risk Analysis, refinery optimization studies and yield & energy optimization studies. Engineers India has earned recognition for jobs executed in India and several countries of West Asia, North Africa, Europe and South East Asia including Algeria, Bahrain, Kuwait, Korea, Malaysia, Norway, Qatar, Saudi Arabia, Sri Lanka, UAE and Vietnam. EIL is diversifying into the areas of Water & Waste Management, Nuclear Power, Thermal and Solar Power and City Gas Distribution. EIL has its head office in New Delhi, regional engineering offices in Gurgaon, Chennai, Kolkata and Vadodara and a branch office in Mumbai. It has inspection offices at all major equipment manufacturing locations in India and a wholly owned subsidiary Certification Engineers International Ltd. (CEIL) for undertaking independent certification & third party inspection assignments. Outside India, EIL has offices in Abu Dhabi (UAE), London, Milan and Shanghai and a wholly owned subsidiary, EIL Asia Pacific Sdn. Bhd. (EILAP) in Malaysia. EIL has also formed a joint venture Jabal EILIOT with IOTL & Jabal Dhahran for tapping business opportunities in Saudi Arabia. Backed by its unmatched experience, EIL enjoys a high professional standing in the market and is known as a versatile and competent engineering company that can be relied upon for meeting the clients' requirements. Quality Management System with respect to EIL's services conforms to ISO 9001:2008 The Design Offices are equipped with state-of-the-art computing systems, design tools and infrastructure.
12.3 EIL’S VISION
To be a world-class globally competitive EPC and total solutions Consultancy Organization.
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12.4 EIL’S MISSION
Achieve ‘Customer delight’ through innovative, cost effective and value added consulting and EPC services.
To maximize creation of wealth, value and satisfaction for stakeholders with high standards of business ethics and aligned with national policies.
12.5 CORE VALUES OF EIL
Benchmark to learn from superior role models.
Nurture the essence of Customer Relationship and bonding.
Foster Innovation with emphasis on value addition.
Integrity and Trust as fundamental to functioning.
Thrive upon constant Knowledge updation as a Learning organization.
Passion in pursuit of excellence.
Quality as a way of life.
Collaboration in synergy through cross-functional Team efforts.
Sense of ownership in what we do. 12.6 QUALITY POLICY OF EIL
Enhance customer satisfaction through continuous improvement of our technologies, work processes, and systems and total compliance with established quality management system.
Consistently improve the quality of products /services with active participation of committed and motivated employees and feedback from stakeholders.
Provide added value to customers through timely and cost effective services/deliverables.
Ensure total compliance with applicable health, safety and environment requirements during design and delivery of products to enrich quality of life.
12.7 HSE POLICY OF EIL
Ensure compliance with requirements of health, safety and environment, during design and delivery of products/ services as per applicable National and International codes, standards, procedures, engineering practices, and statutory requirements including customer's requirements. Ensure safety and health of employees, personnel of clients and associates. Create awareness on health, safety and environment aspects for all employees and associates.
12.8 ENVIRONMENTAL POLICY OF EIL
Ensure compliance with applicable environmental requirements/ regulations during design and delivery of products / service and our operations.
Consider environmental impact in decision making processes.
Promote/develop green technologies for sustainable development.
Promote environmental awareness among all employees.
Adopt the adage-reduce, reuse and recycle in all our operations.
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12.9 RISK MANAGEMENT POLICY OF EIL
EIL is committed to effective management of risks across the organization by aligning its risk management strategy to its business objectives through
Instituting a risk management structure for timely identification, assessment, mitigating, monitoring and reporting of risks.
Risk management at EIL is the responsibility of every employee both individually as well as collectively. The present EIA report has been prepared by EIL, an engineering and consultancy organization in the country. EIL has been preparing regularly EIA / EMP reports for different projects. The environmental Engineering Division of EIL has carried out more than 300 numbers of Environmental Impact Assessment projects.
12.10 DETAILS OF ACCREDITATION
National Accreditation Board for Education and Training (NABET) - under the Accreditation Scheme for EIA Consultant Organizations has accredited EIL as EIA consultant for 11 EIA Sectors, vide NABET notification dated 22.03.17 and certification No.- NABET/EIA/1619/RA0041. The list of sectors for which the accreditation has been accorded by NABET is given in Figure- 12.1. The same can be referred from the NABET website “www.qcin.org/nabet/about.php”, by following the link - EIA Accreditation Scheme – Accreditation Register – Accredited Consultant.
The validity of EIL Accreditation was upto 15.09.2019 and Re-accreditation process is under progress by NABET. And the NABET has been issued a validity extension letter upto 21st February, 2020 vide letter no. QCI/NABET/EIA/ACO/19/1130; Dated: 22.11.2019. The same is shown in Figure 12.2.
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Figure. 12.1: EIL Accreditation Certificate by NABET
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Figure 12.2: Validity Extension Letter for EIL Accreditation by NABET
iathd`r dk;kZy; % bathfu;lZ bafM;k Hkou] 1] Hkhdk,th dkek Iysl] ubZ fnYyh&110066 Regd. Office : Engineers India Bhawan, 1, Bhikaiji Cama Place , New Delhi – 110066