This document is posted to help you gain knowledge. Please leave a comment to let me know what you think about it! Share it to your friends and learn new things together.
Transcript
FINAL ENVIRONMENTAL
IMAPCT ASSESSMENT REPORT
For
Proposed integrated steel and Captive Power
Plant at 405/3, 406, 407 Village- Dhamadka,
Bhuj - Bhachau road, Ta- Anjar, Dist.: Kutch,
Gujarat.
M/s Jay Bharat Steel Corporation
Environmental Consultant:
Anacon Laboratories Pvt. Ltd.
RecognisedbyMoEF (GOI) Notifn. No. D.L.33004/99 Dt.24.10.2007 NABL T-1550 (Chemical), T-1826 (Biological), T-2344 (Mechanical) dt.04/10/2012 valid up to 03.10.2014
Accredited under the QCI-NABET Scheme for EIA Consultant BIS vide No.CL/CQAPD/OSL(7124116) dt.16.12.2011
Certified by ISO 9001:2008, ISO 14001:2004, ISO 18001:2007 Head Office: 60, Bajiprabhu Nagar, Nagpur-440 033, MS
The report has been prepared inline with the prescribed TOR issued vide letter No. F. No. J-11011/349/2012-IA II (I) dated 25 April 2013 by MoEF, EAC, New Delhi.
This report has been prepared by Anacon Laboratories Private Limited with all reasonable skill, care and diligence within the terms of the contract with the client, incorporating our General Terms and Conditions of Business and taking account of the resources devoted to it by agreement with the client.
For and on behalf of ANACON LABS Limited
Approved by : Dr. D. G. Garway
Signed :
Position : Head of organization
Date : 2013
ENVIRONMENTAL IMPACT ASSESSMENT
FOR
Proposed Integrated steel and Captive Power Plant at 405/3,406,407 Village-Dhamadka, Bhuj - Bhachau road,
Taluka- Anjar Dist; Kutch, Gujarat.
Declaration by Experts contributing to the Environmental Impact Assessment for Draft EIA for the Proposed integrated steel and Captive Power unit at 405/3,406,407 Village‐Dhamadka, Bhuj Bhachau road, Ta‐ Anjar, Dist; Kutch, Gujarat.
I, hereby, certify that I was a part of the EIA team in the following capacity that developed the above EIA.
EIA Coordinator: Dr. D.G. Garway Name:
Signature & Date:
Period of involvement: 01/09/2012 to 31‐10‐2013 Contact information:
Functional Area Experts:
S. No.
Functional Areas
Name of the expert/s Involvement
(Period & Task**) Signature & Date
1 SHW* Dr. D. G. Garway EIA Co‐ordinator
Identification & Assessment of Impacts, Suggestion Mitigation Measures
2 WP & AQ Dr. C. Mary Sukanya Identification & Assessment of Impacts, Suggestion Mitigation Measures
3 AP* Dr. Mrs. S. D. Garway Identification & Assessment of Impacts, Suggestion Mitigation Measures
4 SE* Mr. Rajendra Korde Identification & Assessment of Impacts, Suggestion Mitigation Measures
5 LU* Mr. G.Krishnamoorthy Identification & Assessment of Impacts, Suggestion Mitigation Measures
6 GEO Mr. S.V. Kothe Identification & Assessment of Impacts, Suggestion Mitigation Measures
6 EB* Mr. Shrikant Vyawhare Identification & Assessment of Impacts, Suggestion Mitigation Measures
7 RH* Mr. A. A. Adwadkar Identification & Assessment of Impacts, Suggestion Mitigation Measures
*Please attach additional sheet if required Declaration by the Head of the Accredited Consultant Organization I, Dr. D. G. Garway, hereby, confirm that the above mentioned experts prepared for Environmental Impact Assessment for Proposed integrated steel and Captive Power unit at 405/3,406,407 Village‐Dhamdaka, Bhujbhachau road, Ta‐ Anjar Dist; Kutch, Gujarat. I also confirm that I shall be fully accountable for any misleading information mentioned in this statement.
Signature:
Name: Dr. D. G. Garway Designation: Managing Director Name of the EIA Consultant Organization: Anacon Laboratories Pvt. Ltd. NABET Certificate No. & Issue Date: 09th November 2012
S. No. Functional Area Code Complete name of the Functional Areas
1 SHW Solid Waste and Hazardous Waste Management 2 WP Water Pollution Prevention, Control & Prediction of Impacts 3 AQ Meteorology, Air Quality Modelling & Prediction 4 AP Air Pollution Prevention, Monitoring & Control 5 SE Socio‐Economics 6 LU Land Use 7 GEO Geology 8 HG Hydrology, Ground Water & Water Conservation 9 EB Ecology and Biodiversity 10 RH Risk Assessment & Hazard Management
Draft EIA Report for M/s. Jay Bharat Steel Corporation proposed to install integrated steel and power Plant at Survey No 405/3,406,407 Village Dhamadka, Bhuj Bhachau Road, Ta- Anjar, Dist; Kutch, Gujarat. EXECUTIVE SUMMARY
6 Nature of Project Proposed project 7 Is land product or to be procured for new Land already procured
Draft EIA Report for M/s. Jay Bharat Steel Corporation proposed to install integrated steel and power Plant at Survey No 405/3,406,407 Village Dhamadka, Bhuj Bhachau Road, Ta- Anjar, Dist; Kutch, Gujarat. EXECUTIVE SUMMARY
project or for expansion? 8 Screening Category (as per EIA notification dt
14 Sep 2006)and proposed terms of reference (ToR)
Category 3(a); A
9 Total land area For Existing Survey No. 407; area is 21690.98sq m. and for Proposed Survey No 405/3, 406 area is 50504.38 sq m. Total land area shall be 72195.36 sq. m.
10 Cost of project Rs. 90 Cr 11 Land for Green belt 23824.47 sq m 12 Capital and recurring cost earmarked for
environmental protection measures The budgeted capital cost for EMP shall be Rs. 5.25 Cr. Recurring Cost shall be Rs. :70 Lac
13 Water requirement, sources and pollution management
235 KL/ Day, Narmada river
14 Waste water generation 26.5 KL/Day 15 Power Requirement and source 40MW (Will be supplied by PGVCL) 16 DG set 1380 KVA 17 Latitude 23°18'49.2991"N 18 Longitude 70°11'31.0066"E 19 Elevation above MSL 56 m 20 Land use pattern Waste land category 21 Climatic Conditions
(As per IMD) Annual average Maximum Temperature : 21.3° C to 35.3° C Annual average Minimum Temperature : 8.9° C to 22.6° C Annual average Rainfall : 710 mm Maximum average humidity: 96% Minimum average humidity: 43%
22 Existing drainage pattern at site Almost flat terrain 23 Hills No Hills land in the Project area; 24 Forest Land No forest land in the Project area; 25 Surface water bodies Tappar dam (7.81 km) 26 Nearest village Budhar Mora, (2.2 Km) 27 Nearest Town Gandhidham (26 km, SSW) 28 Dist. Head quarters Bhuj 49.86 km 29 Nearest Railway Station Gandhidham Railway Station,26 Km, SSW
Bhachau Railway Station 15 Km, ESE
30 Nearest Highway SH‐ 42 (2.5 Km) 31 Nearest Airport Kandla Airport (26.16 km) 32 Ecologically sensitive zones within 10‐km
distance Nil within 15km
33 Historical/ Archaeological places Nil within 15km 34 National Parks/Wild Life Sanctuary Nil within 15km 35 Major industries Mono Steel India Ltd
Sanstar Biopolymers Ltd Navkaar Ispat Ltd
Draft EIA Report for M/s. Jay Bharat Steel Corporation proposed to install integrated steel and power Plant at Survey No 405/3,406,407 Village Dhamadka, Bhuj Bhachau Road, Ta- Anjar, Dist; Kutch, Gujarat. EXECUTIVE SUMMARY
Draft EIA Report for M/s. Jay Bharat Steel Corporation proposed to install integrated steel and power Plant at Survey No 405/3,406,407 Village Dhamadka, Bhuj Bhachau Road, Ta- Anjar, Dist; Kutch, Gujarat. EXECUTIVE SUMMARY
FIGURE 1.2 SATELLITE IMAGE VIEW OF PROPOSED PROJECT SITE
1.2 RESOURCE REQUIREMENT
Land:
Land is non‐agriculture and the site is located in waste land area‐ Dhamadka, Bhuj Bhachau
road, Taluka: Anjar, District; Kutch, Gujarat. Company has already procured 72195.36 m2 land.
Draft EIA Report for M/s. Jay Bharat Steel Corporation proposed to install integrated steel and power Plant at Survey No 405/3,406,407 Village Dhamadka, Bhuj Bhachau Road, Ta- Anjar, Dist; Kutch, Gujarat. EXECUTIVE SUMMARY
and Unskilled‐ 130. Local manpower shall be employed as much as available.
Draft EIA Report for M/s. Jay Bharat Steel Corporation proposed to install integrated steel and power Plant at Survey No 405/3,406,407 Village Dhamadka, Bhuj Bhachau Road, Ta- Anjar, Dist; Kutch, Gujarat. EXECUTIVE SUMMARY
As the proposed unit is new establishment, company requires many equipment, machineries
and utilities starting from the equipment & machineries for production to the equipment for
office work. Such system will be integrated system of the proposed project technology.
Finance:
The total capital cost of the proposed project would be 90 Cr. The company has also made
provision of Rs. 525 Lac as capital cost and Rs. 70 Lac as recurring cost for Environment
Management/Monitoring.
1.3 PRODUCTS, RAW MATERIALS ANDPROCESS
As planned & proposed by proponent; M/s. Jay Bharat Steel Corporation, the product and by
product are TMT bars, angles, channels, MS Steel Ingots, billets & also silicon manganese &
power. The product wise details of raw materials for proposed products are given below,
1.2 PROPOSED LIST OF PRODUCT
Sr. No Particular Plant Configuration
Product Details
Production
Existing 1 Induction furnace 1 x 5 Ton MS Steel Ingots /Billets 27576 TPA 2 CCM 6 x 11 strand Proposed 1 Induction furnace 7 x 15 Ton MS Steel Ingots /Billets 6,00,000 TPA
2 CCM 6 x 11 strand 3 Rolling Mill 2 x 30 Ton MS Joists 2,00,000 TPA
TMT Bars/Angles/Channels 2,00,000 TPA 4 Electric Arc furnace 1 x 5 Ton Silico Manganese 18,000 TPA 5 Power Plant 30+30 Ton AFBC Power 10 MWH By product 1 Slag 1,44,000 TPA 2 Coal Ash/fines 25,000 TPA
Details of raw materials
The details of Raw material to be consumed and other details are as follows:
Draft EIA Report for M/s. Jay Bharat Steel Corporation proposed to install integrated steel and power Plant at Survey No 405/3,406,407 Village Dhamadka, Bhuj Bhachau Road, Ta- Anjar, Dist; Kutch, Gujarat. EXECUTIVE SUMMARY
5 Power Plant Coal Nil 66000 The physical and chemical properties of the raw materials to be used for manufacturing
different products are tabulated in Table 1.4.
TABLE 1.4 PHYSICAL AND CHEMICAL PROPERTIES OF THE RAW MATERIAL
Sr. No
Full name Of the raw materials
Main properties (refer MSDS, Sch‐9 of MSIHC Rules) B.P. °C
F.P. °C
LEL UEL %
TLV ppm or mg/m
3
LD50 mg/Kg LC50
mg/l
Specific Gravity (water =1)
Vapor density (air=1)
Odour threshold ppm or mg/m
3 1. Steel scrap N.A Non
flammable
N.A 1.5 mg/m
3 N.A N.A N.A N.A
2. Sponge iron N.A Non flammable
N.A 5.0 mg/m
3 N.A N.A N.A N.A
3. Sodium Ferro alloys
N.A N.A N.A N.A N.A N.A N.A N.A
4. Manganese ore
N.A N.A N.A N.A N.A 4700‐5900 kg/m
3
N.A N.A
5. Lime stone N.A N.A N.A 0.05 mg/m
3 N.A 2.55‐
2.85 N.A N.A
6. Sand N.A N.A N.A 0.05 mg/m
3 N.A 1.8‐2.5 N.A N.A
7. Coal N.A N.A N.A N.A N.A 2.0‐3.0 N.A N.A
A storage detail of raw materials to be used for the manufacturing and the products has been
shown in Table 1.5.
Draft EIA Report for M/s. Jay Bharat Steel Corporation proposed to install integrated steel and power Plant at Survey No 405/3,406,407 Village Dhamadka, Bhuj Bhachau Road, Ta- Anjar, Dist; Kutch, Gujarat. EXECUTIVE SUMMARY
TABLE 1.5 STORAGE, SOURCE AND TRANSPORTATION DETAILS OF RAW MATERIALS
Sr. No.
Name of the Raw Material
Source Transportation Storage In
Capacity of storage
1. Steel scrap Imported Road Yard 600 MT 2. Sponge iron Mono Steel Road Bunker 200 MT 3. Sodium Ferro alloys Indigenous Road Yard 750 MT 4. MS Billets Captive Road Yard 400 Ton 5. Manganese ore H. K. Traders Road Yard 1000 Ton 6. Lime stone Local suppliers Road Yard 200 Ton 7. Sand H. K. Traders Road Yard 200 Ton 8. Coal Imported Road Yard 500 Ton
Manufacturing process description
The manufacturing process flow diagram and the description for each product/process is
described below
1 Manufacturing process description for Induction Furnace
Induction furnace technology introduced in 70’s was upgraded in late 80’s by introducing
technology involving medium frequency with constant power track technology that is superior to
the electric arc furnace route due to certain advantages features viz.
A. Homologous melting with minimal scouring of the lining to ensure faster and efficient
production of high equality casting.
B. Optimum performance throughout the melting cycle, through automatic control of
generator power.
C. Metallurgic contamination of the charge being negligible.
D. Oxidization is minimized and a loss of expensive alloying elements in the melt is
reduced.
E. Heat loss through the refractory is minimized ensuring full utilization of the furnace
capacity.
F. Full and constant power is maintained right from the start of melting. Very short time is
required to reach working temperature that results in valuable energy saving.
Draft EIA Report for M/s. Jay Bharat Steel Corporation proposed to install integrated steel and power Plant at Survey No 405/3,406,407 Village Dhamadka, Bhuj Bhachau Road, Ta- Anjar, Dist; Kutch, Gujarat. EXECUTIVE SUMMARY
G. Penetration through low cost raw materials viz., sponge iron, skull iron, still skull,
bundled scrap from bailing process. Ladle returns, punching, returns and risers etc, is
maintained.
H. Induction heating means cooler running equipment minimal fumes and low noise level.
Induction Furnace, in simple terms, is like a transformer with induction coil acting as the
secondary. Therefore, the electrical coupling between the two to be optimally designed
it realized a high ratio of powder induced in the charge to the power induced in the
charger to the power available across the induction coil. In order to power factor
capacitor banks are incorporated in the circuit. The furnace crucible, lined with
refractory lining, is surrounded by water cooled Copper Coil, which carries the power,
acting as primary. The crucible is mounted on steel on steel frames which could be titled
by hydraulic cylinders for employing the melt when it is ready for pouring.
On the electrical side, The incoming 440 volts cycle goes through the solids generator
where it is converted to 1200 v 1600 to 1000 cycles There are automatic devices in the
control panel to get the necessary capacitor bank in the circuit which helps the furnace
to draw the power at the highest efficiency.
Sponge iron & Scrape in pre‐determined ratio and of consistent quantity depending
upon the nature of steel to be produce are charged into the induction furnace. This is
provided the initial condition of high‐flux path through the charge for facilitating
generation of heat and commencement of melting. The sponge iron and scrap is
collected in skips in the working platform and is charge into the furnace through the top
by tipping skips. The larger pieces of scrap are entered first and the smaller pieces are
packed about them as possible. Even after this, further charge may have to be added as
the melting progresses.
To start the furnace the mains and cooling water are switched on. The furnace is
charged up to half and the power is switched on. The power is kept at 100 KW for 20
minutes to drive away the moister, if any, from the lining. Then the power is increased
Draft EIA Report for M/s. Jay Bharat Steel Corporation proposed to install integrated steel and power Plant at Survey No 405/3,406,407 Village Dhamadka, Bhuj Bhachau Road, Ta- Anjar, Dist; Kutch, Gujarat. EXECUTIVE SUMMARY
gradually. In some of the induction furnaces the power increase is automatic and the
operator is free to concentrated on charge in and slagging of within half an hour the
charge will melt. More sponge iron and scrap is added pushing it down with a bar so
that it does not form a bride. Further sponge iron and scrap are added till the furnace is
full. i.e. 150 mm below the top level that is normally the furnace capacity. The power is
kept at 90% Slag is taken off and a bath sample is taken for carbon analysis.
The power reduced while holding the melt waiting for the chemical analysis. As soon as
the carbon results is received the necessary petro‐coke and other allows are added and
the power is increased to bring the melt to tapping temperature. After the slag is taken
off the power is switched off so as to tilt the furnace to pour the molten metal into the
ladles.
The furnace could be emptied to the extent necessary and further sponge iron and scrap
can be added to start a fresh melting cycle.
Water is circulated through the copper coils of the induction furnace to keep them cool.
The water from the furnace coils through the heat exchangers and goes through the
coils again and the second loop takes the water from the heat exchangers to the cooling
tower and brings it back to the heat exchangers. The water pipe has to be soft and
dematerialized. Otherwise scales would start building up inside the pipes and choke the
flow of water resulting in the overheating of the furnace. It is a common practice to
have a de‐mineralizing plant. An overhead tank of suitable capacity should also be built
near the furnace so that in case of electrical failure the water from the overhead tank
can flow through the furnace coil to keep it cool.
Draft EIA Report for M/s. Jay Bharat Steel Corporation proposed to install integrated steel and power Plant at Survey No 405/3,406,407 Village Dhamadka, Bhuj Bhachau Road, Ta- Anjar, Dist; Kutch, Gujarat. EXECUTIVE SUMMARY
2. Manufacturing process description for Rolling Mill
The process of re‐rolling involves several steps:
1. Selection of raw materials
2. Shearing and preparing
3. Heating in coal‐fired furnace
4. Rolling
5. Quality control
6. Dispatch
The raw material for the proposed unit is ingot, billets, bloom, slab etc. Raw material of requisite
composition, after receipt will be inspected and checked. Raw material shall be cut to proper size
for heating in the furnace. The material to be passed for re‐rolling will be charged into re‐heating
furnace. The raw materials will be heated up to its re‐crystallization temp. in furnace and is after
heating the same will be taken out and is then fed to rolling stands. Basically, the heating
operation is intended to rise as uniformly as possible, the temp. of the ingots/billets/blast etc, to
the level appropriate for hot rolling. Optimum temp. for rolling semi‐finished products depends
upon their compositions. Preferred rolling temp. for high carbon steels reached in oxidizing
atmosphere are usually in the rate of 1100Deg.Cent. The adequately heated work prices are
introduced into re‐rolling mills in which a number of carbon steels are chilled steel rolls works
successively. This cross section of the material decrease to a fixed value after every pass.
Sponge Iron
Scrape
16000C furnace steel melt
Elec. Power
Concast Moulds
Final Product Ingots or Billets
Draft EIA Report for M/s. Jay Bharat Steel Corporation proposed to install integrated steel and power Plant at Survey No 405/3,406,407 Village Dhamadka, Bhuj Bhachau Road, Ta- Anjar, Dist; Kutch, Gujarat. EXECUTIVE SUMMARY
Adjusting the roll passes designs can be obtained. The products of desired cross section. The
desired shaped produce is obtained from last or finishing rolls. Thus the ingots/billets after testing
are processed through a shearing machine so as to cut them into reheating furnace, where it is
heated at temp. 1100 to 1200 Deg. Cent. Reduction by compression in roller and mills stands. This
operation is normally carried out in a roughing mill stand and finishing mill stand in total seven
stands it passes. The hot rolled products are then cooled on a cooling bed i.e. platform open to
atmosphere.
The edges of the rolled products are trimmed and normal grinding operations are carried out. The
output is now finished goods. Quality control measures include dimensional check‐up in shares
and sizes, tensile testing, chemical analysis to confirm to the desired specifications, etc. The
processing time in the furnace takes about 5 to 6 hrs. No by‐products are generated except the
wastage due to end cuttings.
Manufacturing process with flow diagram of MS Steel Ingots, MS Joists, TMT Bars
Process Flow Diagram of MS Steel Ingots, MS Joists, TMT Bars
Sponge Iron Steel SCRAP Silico Manganese
Induction Furnace
CCM
MS Billets
Rolling Mill
TMT Bars /Angles/Channels MS joints
Draft EIA Report for M/s. Jay Bharat Steel Corporation proposed to install integrated steel and power Plant at Survey No 405/3,406,407 Village Dhamadka, Bhuj Bhachau Road, Ta- Anjar, Dist; Kutch, Gujarat. EXECUTIVE SUMMARY
The design, manufacture, inspection, testing and installation of all equipment and systems of
the proposed CPP shall conform to the Indian and international standards and best engineering
practices.
Ü Steam Turbine Generators (STG) are the main assembly in the Power Plant.
Ü The steam generator(s) shall be Atmospheric Fluidized Bed Combustion (AFBC) semi‐
outdoor type.
Ü The boiler shall receive the water from specialized Water Treatment System; which shall
convert raw water to soft water suitable for the boiler application.
Ü The steam generated at Boiler will be passed through the Turbine attached to it.
Ü In turbine Generator, the steam will be used to rotate the coil in magnetic field to
produce electricity.
Ü This electrical energy will be stored at step‐up transformer; from where, it is transmitted
at high voltage to step‐down transformer for distribution.
Ü Part of the steam shall be used to regenerate the feed water temperature and thereby
improve the thermodynamic cycle efficiency.
Ü The steam after doing work in STG shall pass through a condenser, which shall be cooled
by an external circulation of water. This water shall be cooled in cooling tower, which
shall be open to the atmosphere. The condensate so formed shall be pumped back vide
pumps to the deaerator and then to the boiler.
Ü The coal/lignite combustion will emit exhaust gasses, which shall be passed through an
electrostatic precipitator, which will reduce the emission levels before passing out
through the chimney.
Ü The ash generated from the boiler shall be sent through a high‐pressure pneumatic
system to transfer ash to a silo.
There will be other auxiliary systems which shall be used to like Compressed air system,
air‐conditioning system, etc.
Draft EIA Report for M/s. Jay Bharat Steel Corporation proposed to install integrated steel and power Plant at Survey No 405/3,406,407 Village Dhamadka, Bhuj Bhachau Road, Ta- Anjar, Dist; Kutch, Gujarat. EXECUTIVE SUMMARY
• Silico manganese is produced by carbothermic reduction of oxidic raw materials in electric
submerged arc furnaces. The same type of furnaces is used for FeMn and SiMn alloys.
Operation of the SiMn process is often more difficult than the FeMn process because higher
process temperature is needed. The size of the SiMn furnaces is usually in the range 15‐40
MVA.
• Standard silico manganese with 18‐20 % Si and about 70% Mn is produced from a blend of
HCFeMn slag with about 35 to 45% MnO, manganese ores, quartzite, (Fe) Si‐remelts or off
grade qualities, and coke, sometimes minor amount of MgO‐containing minerals are added
,e.g.dolomite [Caco3 .Mgco3] Or olivine {(Mgo)2.Sio2}.The discard slag from the SiMn process
normally contains 5 to 10 % Mno. low carbon silico manganese with around 30% Si is
produced by upgrading standard alloy by addition of silicon wastes from the ferrosilicon
industry.
• Manganese ores normally contain unwanted elements that cannot be removed in the
mining and processing stages of special importance is phosphorus due to the strict demands
Process flow Diagram of power plant
Turbine
Generator
Power
Steam
Draft EIA Report for M/s. Jay Bharat Steel Corporation proposed to install integrated steel and power Plant at Survey No 405/3,406,407 Village Dhamadka, Bhuj Bhachau Road, Ta- Anjar, Dist; Kutch, Gujarat. EXECUTIVE SUMMARY
in respect of this element both in the FeMn and SiMn alloys. Iron, phosphorus and arsenic
are reduced more easily than manganese and will consequently go first into the metal. Their
content in the final alloy must therefore be controlled by selection of ores. The HCFeMn
slag is a very pure source of manganese because the easily reduced impurities in the ores
have been taken up by the HCFeMn metal in the preceding process step. The content of
impurities, like phosphorus, in SiMn alloys is therefore controlled, not only by the selection
of manganese ores, but also by the relative amounts of manganese ores and HCFeMn slag
in the raw material mix.
• A process temperature of 1600 to 1650 c is necessary to obtain metal with sufficiently high
content of Si and discard slag with low Mno.FeMn slag has a relatively low melting
temperature (about 1250 c) compared with Mn‐ores. Accordingly a high share of FeMn slag
will tend to give lower process temperatures {1}.When the Mn‐ore starts melting at around
13500 C {2],it will contain a mixture of a solid and liquid phase, where the solid phase is
Mno. Further heating and reduction to 1550 c or more is necessary before the melting ore
will mix with the slag and flow freely. with a high share of Mn‐ore in the mix, the surface
temperature and process temperature in the coke bed zone will be higher.
• The specific power consumption for production of standard SiMn a mixture of Mn‐ore,
HCFeMn slag and Si‐rich metallic remetls, can typically be 3500‐4500 kWh/tonne metal,
dependent first of all on the amount of metallics added to the feed. The power
consumption will increase the Si‐content of the metal produced and also with the amount
of slag per tonne of SiMn. Each additional 100 kg slag produced will consume
additionalabout 50 kWh electric energy. About 100 kWh tonne of metal and some coke will
be saved if the ore fraction in the charge is reduced to MnO by CO gas ascending from the
smelt reduction zone.
Draft EIA Report for M/s. Jay Bharat Steel Corporation proposed to install integrated steel and power Plant at Survey No 405/3,406,407 Village Dhamadka, Bhuj Bhachau Road, Ta- Anjar, Dist; Kutch, Gujarat. EXECUTIVE SUMMARY
A. Manufacturing process flow diagram of Silico Manganese
B. Manufacturing process with flow diagram Slag grinding
Process Flow Diagram of Silico Manganese
Manganese Ore Lime Stone Sand
Arc Furnace
Tapping
Barking
Silico Manganese
Process Flow Diagram for Slag Grinding
Slag
1st Crusher
2nd Crusher
Magnetic Separator
Metal Slag
Draft EIA Report for M/s. Jay Bharat Steel Corporation proposed to install integrated steel and power Plant at Survey No 405/3,406,407 Village Dhamadka, Bhuj Bhachau Road, Ta- Anjar, Dist; Kutch, Gujarat. EXECUTIVE SUMMARY
The area allocated at site for various manufacturing and other plant facilities are provided in
Table 1.6
TABLE 1.6 LAND DISTRIBUTIONS AT SITE (Approx.)
Sr. No.
Details Existing Survey No 407 in Square mtr
Proposed Survey No 405/3, 406 in Square mtr
Total Area in Square mtr
1 Cycle / scooter Parking 161.873 404.6825 566.5555 2 Greenbelt Area 7284.29 16540.18 23824.47 3 Car parking 0 1416.389 1416.389 4 Administrative Building 392.542 0 392.542 5 DG Set / Compressor House 388.495 0 388.4952 6 Over head Water Tank 287.325 0 287.3246 7 Service, Workshop and
Refractories 8001.38 15955.82 23957.2 8 Open Area 5175.08 16187.3 21362.38 9 Total Land Area 21690.98 50504.38 72195.36
1.4.2 Water Requirement
Water requirement for the project will be met from the Narmada water supply. The details of
water requirement for various processes/purposes are given in Table 1.7.
TABLE 1.7 TOTAL WATER REQUIREMENTS FOR THE EXISTING &PROPOSED PROJECT
Sr. No.
Category Existing Water Consumption, KL/day
Proposed Water Consumption, KL/day
Total Water Consumption, KL/day
1 Domestic 10.0 10.0 20.0
2 Industrial a. Cooling 25.0 160.0 185.0
b. Boiler Nil 10.0 10.0
c. Others Nil 7.0 7.0
d. D.M.Plant Nil 13.0 13.0
TOTAL (Industrial + Domestic) 35.0 200.0 235.0 The water will be fulfilled by Narmada water.
Draft EIA Report for M/s. Jay Bharat Steel Corporation proposed to install integrated steel and power Plant at Survey No 405/3,406,407 Village Dhamadka, Bhuj Bhachau Road, Ta- Anjar, Dist; Kutch, Gujarat. EXECUTIVE SUMMARY
The wastewater will be mainly generated from the blow‐down/regeneration of boiler and
D.M.Plant respectively. The wastewater generated will be treated in ETP and treated effluent
will be used for gardening and dust suppression.
Sewage (domestic wastewater)
Domestic wastewater: 11.5 KLD will be generated from domestic activities. Domestic waste
water will be disposed of through septic tank / soak pit system.
FIGURE 1.3 WATER BALANCE DIAGRAM FOR THE PROPOSED TOTAL
Total water 235 m3/day
Domestic 20 m3/day Industrial 215
Soak pit 11.5 m3/day Cooling 185m3/day
Boiler 10 m3/day
Others7 m3/day
D.M.plan
t
Nil 2m3/d Nil 13
ETP 15 m3/day Treated effluent used for Gardening & Dust suppression
Draft EIA Report for M/s. Jay Bharat Steel Corporation proposed to install integrated steel and power Plant at Survey No 405/3,406,407 Village Dhamadka, Bhuj Bhachau Road, Ta- Anjar, Dist; Kutch, Gujarat. EXECUTIVE SUMMARY
Waste Water from boiler blow down and the D.M. plant will be treated in the ETP. It will be
collected and neutralized in collection cum neutralization tank. Mostly industrial effluent shall
be neutral in nature. However, industry has proposed two dosing tanks for acid and alkaline
solutions. Then, neutralized effluent will go to the primary settling tank, for the settlement of
heavier particles in the effluent. Supernatant will go to intermediate tank and sludge from
bottom of primary settling tank will be collected in sludge drying bed. Then,the effluent will
flow to intermediate tank. Effluent from intermediate tank will pass to the sand filter, carbon
filter and lime stone filter respectively. Finally, treated waste water will be collected in Treated
waste water collection tank. Treated water; meeting the GPCB norms,will be used for the
gardening and sprinkled for dust suppression. ETP sludge is hazardous waste, which is handled
as per the hazardous (M&H) rules 2008.
TABLE 1.9 SIZING OF THE ETP UNITS
1 Collection cum Neutralization Tank 1 10.5 X 7.8 X 10.5 2 Primary Settling Tank 1 13.5 X 4.5 X 3.6 3 Sludge Drying Bed 1 13.5 X 9 X 7 4 Intermediate Holding tank 1 13.5 X 9 X 7 5 Pressure Sand Filter 1 400 mm dia 6 Activated Carbon Filter 1 400 mm dia 7 Lime stone Filter 1 ‐‐‐ 8 Treated waste water collection tank 1 9.6 X 10.5 X 6
Draft EIA ReSurvey No 4EXECUTIVE
ANACON
NAGPUR,
1.5 A
FLUE GAS
The deta
given in T
Sr. No
1
2
Sr. No.
Sta
atta
eport for M/s. Jay405/3,406,407 ViE SUMMARY
N LABORATOR, MAHARASH
ATMOSPHER
S CHARACTE
ils of the sta
Table 1.10 a
Stack attac
Induction F
D. G. Set: 3
ck ached to
y Bharat Steel Cillage Dhamadka
RIES PVT. LTDHTRA
F
RIC EMISSION
ERISTICS
ack and char
and 1.11
TABLE 1
ched to H
s
Furnace 3
380 KVA 1
TABLE 1.
Heig
stack
orporation propoa, Bhuj Bhachau
D.
FIGURE 1.4 E
NS
racteristics o
1.10 FLUE GA
Height & Dia.stack In mete
30
10
11 FLUE GAS
ght & Dia. of tkIn meter
osed to install inteRoad, Ta- Anjar,
ETP FLOW D
of the variou
AS STACK DE
. of the er
AP
Sy
Pu
No
S STACK DET
the APC S
egrated steel andr, Dist; Kutch, Guj
IAGRAMS
s flue gases
ETAILS (Exist
PC ystem
ulse jet bagFil
ot Applicable
TAILS (Propo
ystem
d power Plant atujarat.
generated a
ting)
Expe
Pollu
ter PM SO2 NOx
osed)
Expected Pollutant
t
ES‐20
at the site ar
ected utant
GPC
Lim
As pGPC
Nor
GPCB Limit
re
CB mit
per CB rms
Draft EIA Report for M/s. Jay Bharat Steel Corporation proposed to install integrated steel and power Plant at Survey No 405/3,406,407 Village Dhamadka, Bhuj Bhachau Road, Ta- Anjar, Dist; Kutch, Gujarat. EXECUTIVE SUMMARY
Collection, storage and Use within premises as a lubricant/ sell to registered recycler
3 Discarded drum/container
33.1 Existing: NILL Proposed: 720 nos./Year
Collection, storage and decontamination or Reuse within premises/ sell to approved scrap vendor
Draft EIA Report for M/s. Jay Bharat Steel Corporation proposed to install integrated steel and power Plant at Survey No 405/3,406,407 Village Dhamadka, Bhuj Bhachau Road, Ta- Anjar, Dist; Kutch, Gujarat. EXECUTIVE SUMMARY
Name of Location Approx. Aerial Distance & Direction from Site
Details of sampling & Monitoring
1 Project Site (Lat. 23.3137 N, Long. 70.1919 E)
0.0 km Sampling: Ambient Air Quality, Ground Water, Soil and Noise
2 Morger (Lat. 23.3401 N, Long. 70.2065 E)
3.20km NNE Sampling: Ambient Air Quality, Ground Water, Soil and Noise
3 Krishn Nagar (Lat. 23.3419 N, Long. 70.2455 E)
6.23km NNE Sampling: Ambient Air Quality, Ground Water, Soil and Noise
4 Lunva (Lat. 23.2737 N, Long. 70.2467 E)
6.35km SE Sampling: Ambient Air Quality, Ground Water, Soil and Noise
5 Pashuda (Lat. 23.2282 N, Long. 70.1999 E)
9.43km SSW Sampling: Ambient Air Quality, Ground Water, Surface water, Soil and Noise
6 Tapar Dam (Lat. 23.25 N, Long. 70.1343 E)
9.30km SW Sampling: Ambient Air Quality, Ground Water, Surface water, Soil and Noise
7 Dudhai (Lat. 23.3178 N, Long. 70.1259 E)
6.85km WNW Sampling: Ambient Air Quality, Ground Water, Soil and Noise
8 Amrapar (Lat. 23.3651 N, Long. 70.1508 E)
7.50km NW Sampling: Ambient Air Quality, Ground Water, Surface water, Soil and Noise
9 Pakadsar (Lat. 23.3317 N, Long. 70.2418 E)
5.5km NNE Sampling: Surface water
10 Chopadva (Lat. 23.2797 N, Long. 70.2796 E)
9.55km ESE Sampling: Surface water
11 Kotda Lake (Lat. 23.2905 N, Long. 70.0991 E)
9.50km W Sampling: Surface water
12 Aamardi (Lat. 23.3301 N, Long. 70.2214 E)
3.43km NEE Sampling: Surface water
METEOROLOGY
• Temperature
Draft EIA Report for M/s. Jay Bharat Steel Corporation proposed to install integrated steel and power Plant at Survey No 405/3,406,407 Village Dhamadka, Bhuj Bhachau Road, Ta- Anjar, Dist; Kutch, Gujarat. EXECUTIVE SUMMARY
Historical trend shows March as the hottest month and February as the coldest month in the
annual calendar. During the period of 1961 to May 1990, maximum temperature is recorded to
be 40.1°C (May) and the minimum temperature is recorded to be 12.1°C (January). The average
daily temperature of the study period is recorded to be 20.5°C.
• Relative Humidity
Historical data shows the average relative humidity of 22% in mornings and 80% in the
evenings. During the period from 1961 to May 1990, daily relative humidity ranged from 4%‐
99%. The average humidity of the study period was recorded as 51.3%.
• Rainfall
The annual rainfall in the district is received during the south‐west monsoon season from June
to September. August is usually the month of highest rainfall. The average annual rainfall of the
region based on historical data of Bhuj, is noticed to be around 319.8mm. There was no rain in
the study period.
WIND PATTERN
The historical data shows wind blowing pattern from North‐ East in the winter and from West
and South‐West during summer and monsoon. Site specific micrometeorological data were
collected during the month of Dec 2012 to Feb 2013. It was observed that wind direction is
predominantly from NW direction for the study period. The dominant wind vector was
observed to be 185 Degree with 66.13% frequencies.
AMBIENT AIR QUALITY
Ambient Air Quality Monitoring was carried out at 8 locations during December 2012 to
February 2013. 98th percentile value of PM2.5 concentrations were found to be in the range of
27.75 – 34.06 μg/m3; Maximum value of PM2.5 34.06 µg/m3 was observed at plant area and
minimum value of PM2.5 of 27.75 µg/m3 was observed at Near Tappar dam.
Draft EIA Report for M/s. Jay Bharat Steel Corporation proposed to install integrated steel and power Plant at Survey No 405/3,406,407 Village Dhamadka, Bhuj Bhachau Road, Ta- Anjar, Dist; Kutch, Gujarat. EXECUTIVE SUMMARY
98th percentile value of RSPM (PM10) concentration were found to be in range of 53.56 – 61.37
μg/m3; Maximum value of RSPM 61.37 µg/m3 was observed at plant area and minimum value of
RSPM of 53.56 µg/m3 was observed at Near Tappar dam.
98th percentile value of Sulphur dioxide in the study area from the monitored data were in the
range of 14.79‐18.63 µg/m3; Maximum value of sulphur dioxide 18.63 µg/m3 was observed at
Amrapar and minimum value of sulphur dioxide 14.79 µg/m3 was observed at Near Tappar
dam.
98th Percentile values of NOX concentration in the study area was found to be in the range of
20.29 ‐ 26.74 μg/m3. Maximum value of Nitrogen of 26.74 µg/m3 was observed at plant area
and minimum value of sulphur dioxide of 20.29 µg/m3 was observed at Dudhai.
Poly Aromatic Hydrocarbon is not present in the ambient air quality monitoring station
locations.
NOISE LEVELS
The Noise levels have been found in the range of 51.2 – 66.4 dB(A) during day time and of 40.2
– 55.5 dB(A) during Night time in existing plant and the Noise levels has been found in the
range of 50.3– 58.2 dB(A) during day time and of 40.5 – 49.6 dB(A) during Night time at
monitoring location.
Ground Water Quality
Ground water quality is well within the permissible limit as per IS: 10500 in different seasons of
the study period. pH was found in the Range 6.71 ‐ 7.70 Were Minimum Value is found in
Krishna Nagar and Maximum Value Found in Dudhai Village, Electrical Conductivity (EC) Value
Found In the Range 652.2‐ 5060 μs/cm Were Minimum Value is found in Morgar Village and
Maximum Value Found in krishna nagar Village, TDS value found in the Range 378‐3441 mg/l
Were Minimum Value is found in morgar Village and Maximum Value Found in Krishna nagar
Village. Iron Value Found in the Range 0.16 ‐ 0.38 mg/l Were Minimum Value is found in Morgar
Village and Maximum Value Found in Lunva Village, Nitrate Value Found in the Range 3.1‐4.4
μs/cm Were Minimum Value is found in Krishna Village and Amrapar village and Maximum
Value Found in Morgar Village. Fluoride Value Found in the Range <0.1 – 0.23 μs/cm Were
Minimum Value is found in Tapper & Dhudhai Village and Maximum Value Found in Krishna
Draft EIA Report for M/s. Jay Bharat Steel Corporation proposed to install integrated steel and power Plant at Survey No 405/3,406,407 Village Dhamadka, Bhuj Bhachau Road, Ta- Anjar, Dist; Kutch, Gujarat. EXECUTIVE SUMMARY
Village. Sulphate Value Found in the Range 17.3‐116.4 μs/cm Were Minimum Value is found in
Dhudhai village and Maximum Value Found in Krishna Village. Alkalinity Value Found in the
Range 103.1 ‐ 763.4 μs/cm Were Minimum Value is found in Tapper village and Maximum Value
Found in Krishna Nagar Village. Calcium Value Found in the Range 78.8 ‐ 740 μs/cm Were
Minimum Value is found in Tapper village and Maximum Value Found in Krishna Nagar Village.
Magnesium Value Found in the Range 24.4‐66 μs/cm Were Minimum Value is found in Amarpar
village and Maximum Value Found in Krishna nagar.
Surface Water Quality
In the Lake Water Quality, pH was Found in the Range of 6.92 – 7.98; Minimum Value 6.92 is
found in Amarapar Lake and Maximum 7.98 Value Found in Pashuda Lake, EC Found in the
Range of 979.2 – 9410 μs/cm; Minimum Value 979.2 μs/cm is found in Pakadsar Lake and
Maximum Value 9410 μs/cm Found in Pashuda Lake. TDS found in the Range 607‐ 6116 mg/l
Were Minimum Value 607 mg/l is found in Pakadsar Lake and Maximum Value 6116 mg/l found
in Pashuda Lake. Iron Value Found in the Range 0.12 ‐ 0.25 μs/cm; Minimum Value is found in
Pakadsar lake and Maximum Value Found in Kotda Lake, Nitrate Value Found in the Range 7.8‐
22.0 μs/cm; Minimum Value is found in Amarpar lake and Maximum Value Found in Kotda Lake,
Flouride Value Found in the Range <0.1 – 0.18 μs/cm; Minimum Value is found in Kotda lake,
Amarpar & Aamaardi Lake and Maximum Value Found in Pashuda Lake. Sulphate Value Found
in the Range 36.2‐96.3 μs/cm Were Minimum Value is found in Pakadsar Lake and Maximum
Value Found in Aamardi village. Alkalinity Value Found in the Range 241.2‐676 μs/cm Were
Minimum Value is found in Pakadsar Lake and Maximum Value Found in Pashuda Lake. Calcium
Value Found in the Range 279.2‐348 μs/cm Were Minimum Value is found in Kotda Lake and
Maximum Value Found in Amarpar Lake. Magnessium Value Found in the Range 2.8‐156.5
μs/cm Were Minimum Value is found in Aamardi Lake and Maximum Value Found in Chopadva
Lake.
Soil Quality
Soil is slightly alkaline in nature, as pH is in the Range 7.8‐ 7.93. Soil texture is sandy. EC found
in the Range of 197.12 ‐ 213.24 μs/cm; Minimum Value 197.12 μs/cm is found in Pashuda and
Draft EIA Report for M/s. Jay Bharat Steel Corporation proposed to install integrated steel and power Plant at Survey No 405/3,406,407 Village Dhamadka, Bhuj Bhachau Road, Ta- Anjar, Dist; Kutch, Gujarat. EXECUTIVE SUMMARY
Maximum Value 213.24 μs/cm found in Krishna nagar, Water Holding Capacity (WHC) found in
the Range 27.2 – 32.23 g/100g Were Minimum Value 27.2 g/100g is found in Amarapar village
and Maximum Value 32.23 g/100g Found in Krishna nagar Village
LAND USE PATTERN
A total of six main classes and eleven sub‐class of land use/land cover classes have been
demarcated in the study area. The area as a whole represents a plain, drained by a number of
south east flowing rivers which debouche into the Tappar River that flows from west to
northern margin middle of the study area. Large crop land covered for 59.83 % of the total area
and water body area 2.36%, mudflat 1.6% and salt pan 0.2 %of the total area and 22.85% land
with & without scrub has developed mainly in the area adjacent to the study area. The exposed
part of side bars and river and dried up river beds constitute this category of land cover.
The agricultural land constitutes the dominant category of land use covering as much as 59.59
% and Current fallow land 5.59% of the total area. Active creek of the all the canals it covers
about 2.36 % of the total study area. The consistently shifting nature of the North West part to
south west part bank migration has resulted in large uncultivated & rural settlement along the
active plain area towards the site location. The project site is located within the current fallow
land area significant distribution. The land use for settlement is mostly confined to the ‘rural &
urban settlement’ (built up‐rural) 1.85%, Industrial area 1.07% of the total area and scattered
along the road networks.
1.9 IMPACTS & MITIGATION
The proposed project will have potential of pollution mainly due to the emission from utilities,
gaseous emission from process, wastewater generation & disposal and hazardous waste
generation & disposal. These potential impacts in form of pollution are described below under
respective heading with necessary details.
Emission & Air Pollution Control
Emission from proposed project is likely to arise due to the emission from utilities. However,
the pollution potential is not envisaged to be major as fuel proposed in boiler. Further, in DG
Draft EIA Report for M/s. Jay Bharat Steel Corporation proposed to install integrated steel and power Plant at Survey No 405/3,406,407 Village Dhamadka, Bhuj Bhachau Road, Ta- Anjar, Dist; Kutch, Gujarat. EXECUTIVE SUMMARY
set diesel will be used for operation only during failure of power supply from the Paschim
Gujarat Vij Co. Ltd. Thus, the overall air pollution potential will remain very low. However, some
pollution control equipment will be installed to prevent air pollution due to the emissions.
Process emissions from process vent is also likely to occur, which may have considerable
potential of pollution. Based on modeling, it has been noticed that the pollutant level in the
ambient air quality will increase very little to cause almost negligible change. The details of the
emission sources and planned mitigations considered for modeling are described below in brief.
• First source of pollution will be flue gas through two D. G. Sets (380+1000 KVA), which will
be installed by the company as stand‐by provision for power generation. The DG sets will be
used in case of power failure only. The fuel used will be Diesel 130 Liters/hr. DG set stack
will be provided with 12 meter height from ground level. Chimney heights have been
chosen to ensure adequate dispersion of the generated pollutants, through in small
quantity, effectively and to ensure that the ground level concentrations of pollutant in the
surrounding environment remain well within the permissible limits.
• Second source of pollution will be flue gas through two Boilers (Capacity of 30 Ton each) in
which ESP system will be followed.
• The emission will be dispersed with the chimney having height, Induction furnace (30 m),
DG. Set‐1 380 KVA (10 m), Boiler‐1 & 2 having capacity of 30 Ton (45 m), DG set ‐2 ,1000
KVA (12 m)
The source & strength of emissions from proposed project is summarized below,
Sr. No.
Stack attached to
Height of stack, m
Diameter of stack, m Fuel
Fuel Consumption APC
System Expected Pollutant
Concentra‐tion
EXISTING FLUE GAS EMISSION
1 Induction Furnace
30 0.20 Electricity
400 KVA
Pulse jet bag filter PM
SO2 NOx
As per GPCB Norms 2
D.G.Set‐1 (380KVA)
10 0.15 HSD 30 Lit/hr Not Applicable
Draft EIA Report for M/s. Jay Bharat Steel Corporation proposed to install integrated steel and power Plant at Survey No 405/3,406,407 Village Dhamadka, Bhuj Bhachau Road, Ta- Anjar, Dist; Kutch, Gujarat. EXECUTIVE SUMMARY
pressure sand filter. The treated effluent meeting stipulated standards of treated effluent
quality will be disposed‐off through reuse or used for plantation within the company premises.
Hazardous & Solid Waste generation & Management
The production will be started in one phase existing & proposed and so the waste is likely to be
generated in one stage depending on the products. For ETP waste, mode of disposal is TSDF, for
Used oil/spend oil mode of disposal use within premises as a lubricant/sell to registered
recycler, discarded drum/container mode of disposal determination or reuse within
premises/sell to approved scrap vendor.
Draft EIA Report for M/s. Jay Bharat Steel Corporation proposed to install integrated steel and power Plant at Survey No 405/3,406,407 Village Dhamadka, Bhuj Bhachau Road, Ta- Anjar, Dist; Kutch, Gujarat. EXECUTIVE SUMMARY
effective in reduction interior noise levels. Whether stripping and caulking of wall
penetrations is essential.
• Regular monitoring of noise level in all areas & buildings of proposed unit of track the
change in noise level and to ensure the change is below 10 dB (A).
Greenbelt Development
Greenbelt form a surface capable of absorbing air pollutants and forming sinks for pollutants.
Plants grown in such a way as to function as pollutants sinks are collectively referred to as
greenbelts. Apart from functioning as a pollutant sink, green belts provide following benefits;
• Green belt helps in noise abatement for the surrounding area. Thus, it is recommended
as noise barriers.
• Green belt helps in achieving bio diversity by providing possible habitats for birds and
animal, thus recreating hospitable nature in an otherwise drab urban industrial scene.
• Green belts increase the aesthetic value of the site.
Draft EIA Report for M/s. Jay Bharat Steel Corporation proposed to install integrated steel and power Plant at Survey No 405/3,406,407 Village Dhamadka, Bhuj Bhachau Road, Ta- Anjar, Dist; Kutch, Gujarat. EXECUTIVE SUMMARY
It may be noted that Jay Bharat Steel Corporation is located in waste land, Dhamadka. The unit
shall develop a green belt in the area available in and around the factory premises. A total of
33% of plot shall be developed as green belt, which shall be about 23824.47 m2 of plot area.
Rainwater Harvesting
Company will implement rainwater harvesting program through roof top harvesting scheme.
The harvested rainwater will be utilized to meet the requirement of proposed project. Details
study will be done by professional in the field and with help of such professional Roof top
Harvesting will be adopted.
Environment Health & Safety Management Cell
Company will form an environmental management cell with required manpower &
designations to operate the environmental management plan as timely required to protect &
conserve the environment as well as to prevent/control pollution from the proposed unit. The
cell will also be responsible for safety & related task and so will act as EHS cell. EHS cell will also
have full time qualified safety officer, factory medical officer employed based on statutory
requirements of qualification criteria for hazardous process and monitoring of the occupational
injury to workers as well as impact on the workers.
SAFETY MEASURES
Critical safety measures are the important most aspect of selection of process technology to
ensure safety in production unit. For the safety in production, some important critical safety
measures will be provided within the process technology/equipment itself. Company will
ensure such provision in the technology/equipment/machineries at time of purchase.
Safety Measures for Storage & Handling
For the safe storage, company will be provided the following safety measures.
1. Display boards will be provided on all raw material storage area which includes the
name of the product, stored material of construction, calibration of tanks and date of
painting.
2. Hazardous display board and national fire prevention association code will be display on
all storage tanks.
Draft EIA Report for M/s. Jay Bharat Steel Corporation proposed to install integrated steel and power Plant at Survey No 405/3,406,407 Village Dhamadka, Bhuj Bhachau Road, Ta- Anjar, Dist; Kutch, Gujarat. EXECUTIVE SUMMARY
3. On‐site detector for fire based on heat &/or smoke detection with alarm system.
4. Fire hydrant will be provided as required.
5. Water showering system (Automated Sprinkling system) will provide to the storage raw
materials to avoid the vaporization due to increase in atmosphere temperature. In some
area, sprinkler will not be provided as water can increase the chances of spread‐out of
fire.
Safety Measures for Preventive maintenance
The safety measures in form of the general Do’s and Don’ts for safety in process & other plant
are as below:
• Do not work on equipment without permission from plant head and maintenance head.
• Make sure equipment is empty and fluxed with nitrogen and air.
• Keep proper and adequate fire extinguisher near work area
• Use proper PPE.
• Check all motors are disconnected and fuse pulled out before maintenance.
• Work in any equipment must be conducted in presence of supervisor
• Make sure all process lines are disconnected.
• Additional safety measures in form of the checklist covering Do’s & Don’ts of preventive
maintenance, strengthening of HSE, manufacturing utility staff for safety related
measures will be updated timely and will be made available to all concern department &
personnel.
Occupation health & safety
The management will prepare the health & safety policy and shall display at certain places &
circulate it to the workers. The main effects of various process gases are anticipated in the
proposed project. More details of the process gases specific hazards are shown in chapter‐2. No
other source of adverse effects on occupational health & safety is likely to occur. The
management will prepare the safety manual, safety booklet etc. to enhance safety culture in
the company. The medical checkup program will be implemented as pre‐employment and post‐
employment check‐up programs. Medical check‐up of all the employees shall be carried out
Draft EIA Report for M/s. Jay Bharat Steel Corporation proposed to install integrated steel and power Plant at Survey No 405/3,406,407 Village Dhamadka, Bhuj Bhachau Road, Ta- Anjar, Dist; Kutch, Gujarat. EXECUTIVE SUMMARY
periodically by qualified medical officer and health records shall be maintained in prescribed
format.
In general following are the key safety measure which will be implemented well with the
inception of the project.
• The company will provide with all necessary equipment like portable detector, online
detector and other laboratory equipment as mentioned above for regular monitoring of
workplace air and other conditions (Temperature, Humidity and Light Intensity etc.)
• The company will establish the safety policy
• All necessary PPES will be made compulsory to all workers
• Fire extinguishers will be installed wherever necessary
• Fire hydrant system with loop will install with water capacity of 235 KL/day.
• Work place monitoring will be done on regular basis.
• All storage tanks will protected with dyke wall.
• Container decontamination area will separately provided
• The company will carry out detailed medical check of employee twice in year
• The company will provide occupational health center (OHC) and appoint part time
qualified medical officer as per factories act guidelines.
• The company will carry out pre medical checkup at the time of employment and
maintain form 33 as per factories act guidelines.
Emergency Management
The management has already started the task of onsite emergency management plan and the
task is under process of development. It shall be in place and shall focus on all the emergencies
that are likely to arise in the factory. For such purpose, the company has already prepared the
Risk assessment report. The same is presented along with the present EIA report. The company
will implement all suggestion made therein the risk assessment report to ensure safety at all
level & stage of the proposed project. The following are the generic actions planned by the
proponent.
Inspection & Maintenance:
Draft EIA Report for M/s. Jay Bharat Steel Corporation proposed to install integrated steel and power Plant at Survey No 405/3,406,407 Village Dhamadka, Bhuj Bhachau Road, Ta- Anjar, Dist; Kutch, Gujarat. EXECUTIVE SUMMARY
• Annually: All valves, safety valves painting of vessels, pipelines.
Accident Records:
Accident investigation format will be made available, record of investigated accident shall be
maintained in this format.
Safety training program:
Safety training program shall be organized for all level of workers, supervisors, including
contract workers.
Safety Department:
A safety Department shall be headed by Manager (Safety) and one safety officer assisting him.
Safety features and Emergency capabilities:
• Compliance of statutory rules and regulation such as factory act and their rules as
applicable like manufacture, storage and H.W. Rules 1989 as amended environment
protection act.
• The plant shall carry a high tension connection from PGVCL. The plant shall also be kept
powered by D.G set in the event of schedule power cut by PGVCL.
Draft EIA Report for M/s. Jay Bharat Steel Corporation proposed to install integrated steel and power Plant at Survey No 405/3,406,407 Village Dhamadka, Bhuj Bhachau Road, Ta- Anjar, Dist; Kutch, Gujarat. EXECUTIVE SUMMARY
અન બ પિરષણનાન અહવાલ સરકારી કચરીવમાન િનયમીત પણ મોકલવામાન બવશ.
બમ, યપરોત ચચાવના અりસનધાન અન વષ ૨૦૧૨-૧૩ નાન િશયાળા દરયાન કરાયલ પયાવરણ ભાવ સિમષાનાન અહવાલ પરથી તારવી શકાય ક મ. જય ભારત 〞ટીલ કોપ稲રશનનાન 〞તાિવત એકમ /કામગીરીન કારણ બસપાસ નાન પયાવરણ પત કોમ મોટી નકારામક અસર નિહ પડ, અન う અસરો પડશ ત સરકારી ધારા-ધોરણોની િનયત માા કરતા નીચા રહશ
Abbreviations
AAQSRN : Ambient Air Quality Standards In Respect of Noise AC : Alternating Current ACW : Auxiliary Cooling Water API : American Petroleum Institute APCD : Air Pollution Control Device BDL : Below Detectable Limit BFP : Boiler Feed Pump BIS : Bureau of Indian Standards BLEVE : Boiled Liquid Expanding Vapour Explosions BOD : Biological Oxygen Demand C&I : Control and Instrumentation CPP Captive Power Plant CEA : Central Electricity Authority CEC : Cation Exchange Capacity CGWB : Central Ground Water Board CIWMB : California Integrated Waste Management Board CO : Carbon Monoxide COD : Chemical Oxygen Demand CPCB : Central Pollution Control Board CPP : Captive Power Plant CTE : Consent To Establish CTO : Consent To Operate Cum/ CUM : Cubic meter CW : Cooling Water D.M. Plant : De-Mineraliser Plant
dB : Decibel DC : Direct Current
DCS : Distributed Control System DG : Diesel Generator DMP : Disaster Management Plan DMW/ D.M. Water : De-Mineralized Water EC : Environmental Clearance ECC : Emergency Control Centre EHV : Extra High Voltage EIA : Environment Impact Assessment EMP : Environment Management Plan EMS : Environment Management System EPA : Environment Protection Agency
EPH : Environmental Public Hearing
EPR : Environment Protection Rules FE & TI : Fire Explosion & Toxicity Index GLC : Ground Level Concentration
HFL : Highest Flood Level HP : High Pressure
HRSG : Heat Recovery Steam Generator HSD : High Speed Diesel IDC : Interest During Construction. IMD : Indian Meteorological Department IP : Intermediate Pressure IS : Indian Standard ISC3 : Industrial Source Complex Version 3 KLD : Kilo Litre/day kV : Kilo Volts kVA : Kilo Volt Amperes kW : Kilo Watt kWh : Kilo Watt Hour LP : Low Pressure MCM : Million Cubic Meter MLD : Million Litres/Day
MoEF : Ministry Of Environment & Forests MOU : Memorandum Of Understanding MS : Mild Steel
MSL : Mean Sea Level MVA : Mega Volt Amperes MW : MEGAWATT MW : Megawatt NAAQS : National Ambient Air Quality Standards NG : Natural Gas NH : National Highway NOx : Oxides Of Nitrogen O&M : Operation And Maintenance OSHA : Occupation Safety & Health Administration
P.A. SYSTEM : Public Address System PCB : Pollution Control Board RCC : Reinforced Cement Concrete REIA : Rapid Environment Impact Assessment RL : Reduced Level RSPM : Respirable Suspended Particulate Matter RTD : Resistance Temperature Detector S/S : Sub – Station SAR : Sodium Absorption Ratio
TAC : Tariff Advisory Committee TPM : Total Particulate Matter TSS : Total Suspended Solid UHC : Unburnt Hydro Carbon ULB : Urban Local Bodies UN : United Nations VOC : Volatile Organic Compound
TABLE OF CONTENTS SR. NO. TITLE PAGE NO. 1.0 INTRODUCTION C1‐1 1.1 Project Brief C1‐2 1.2 Objective of the study C1‐2 1.3 Methodology adopted for EIA C1‐3 1.4 Nature, size & location of the Project C1‐3 1.5 Significance of the project C1‐5 1.6 Compliance of Terms of Reference C1‐12 2.0 PROJECT DESCRIPTION C2‐1 2.1 Introduction C2‐1 2.2 Need of the Project C2‐1 2.3 Type of the project C2‐1 2.4 Project cost and Schedule C2‐2 2.5 Site location C2‐2 2.6 Site selection for Proposed project C2‐8 2.7 Proposed Infrastructure C2‐8 2.8 Plant Layout and Civil Engineering Aspects C2‐8 2.9 Magnitude of Operation C2‐8 2.10 Proposed Schedule for Approval and Implementation C2‐9 2.11 Details of Product to be Manufactured C2‐10 2.12 Details of Raw Materials C2‐10 2.13 Manufacturing Process description C2‐12 2.14 Stack Details C2‐20 2.15 Resource Requirement C2‐21 2.16 Atmospheric Emissions C2‐27 2.17 Solid Waste Management C2‐27 2.18 Prevailing Environmental Quality Standards C2‐28 2.19 Norms For Hazardous Waste Disposal C2‐30 3.0 DESCRIPTION OF ENVIRONMENT C3‐1 3.1 General C3‐1 3.2 Approach & methodology of Baseline Study C3‐2 3.3 Description of Baseline Environment C3‐8 3.4 Topography & Drainage C3‐9 3.5 Land use Pattern Of the study area C3‐25 3.6 Air Environment C3‐28 3.7 Noise Environment C3‐32 3.8 Water Environment C3‐34 3.9 Soil Environment C3‐42 3.10 Survey Results C3‐47 3.11 Methods Employed for Plankton documentation C3‐62 3.12 Socio Economic Environment C3‐65
4.0 PREDICTION AND ASSESMENT OF IMPACTS C4‐1 4.1 Stages of impact identification & Prediction C4‐3 4.2 Identification of impacts C4‐4 4.3 Description Anticipated impacts C4‐9 4.4 Biological Environment C4‐33 4.5 Socio – Economic Environment C4‐39 4.6 Mitigation Measures C4‐41 4.7 Air Pollution Control Measures C4‐44 4.8 Evaluation of Impacts C4‐49 4.9 Environmental Management reviews C4‐52 5.0 ANALYSIS OF ALTERNATIVES C5‐1 5.1 General C5‐1 5.2 Existing infrastructure C5‐1 5.3 Consideration for selection site C5‐2 5.4 Land site details of availability of Facilities C5‐2 6.0 ENVIRONMENTAL MONITORING PROGRAMME C6‐1 6.1 General C6‐1 6.2 Environmental monitoring program C6‐2 6.3 Monitoring methodologies C6‐4 6.4 Reporting & Documentation C6‐4 6.5 Budget & procurement schedule C6‐4 7.0 ADDITIONAL STUDIES – RISK ASSESSMENT C7‐1 7.1 Objectives of the study C7‐1 7.2 Hazard Identification and prevention measures C7‐3 7.3 Occupational Health C7‐6 7.4 Safety Plan C7‐7 7.5 Administrative Controls C7‐15 7.6 Personal Protective Equipment (PPE) C7‐16 7.7 Operation and Maintenance of Furnace C7‐16 7.8 Risk management & Insurance planning C7‐17 8.0 DISATER MANAGEMENTA PLAN C8‐1 8.1 Objectives C8‐1 8.2 Emergency Management Plan C8‐11 9.0 Environmental Management Plan C9‐1 9.1 Objectives of Environmental Management Plan C9‐1 9.2 Environmental Management Plan C9‐2 9.3 Control of Air Environment (Air Pollution) C9‐3 9.4 Water Pollution Control C9‐6 9.5 Management Of Solid hazardous Wastes C9‐6 9.6 Noise Control & management C9‐8 9.7 Fly Ash utilization C9‐9 9.8 Operational Health and Safety Plan C9‐11 9.9 Design of greenbelt C9‐12 9.10 Implementation of Environmental Management plan C9‐14 9.11 Budgetary provision for Environmental Protection C9‐16 9.12 CSR Activities C9‐17
LIST OF FIGURES FIGURE NO. TITLE PAGE NO. 1.1 Location map C1‐4 1.2 Satellite Image view C1‐5 2.1 Cartographic map of proposed project site C2‐4 2.2 Site GPS coordinates of Proposed Project Site C2‐4 2.3 Site Layout Plan C2‐5 2.4 Photograph of Existing and Proposed Plant Area C2‐6 2.5 Water Balance Diagram for the Existing C2‐23 2.6 Water Balance Diagram for the Proposed project C2‐23 2.7 Water Balance Diagram for the Proposed total C2‐24 2.8 ETP flow Diagrams C2‐26 3.1 Base map of Study area Showing Sampling & monitoring Location (10Km) C3‐5 3.2 The study area C3‐9 3.3 Topography map C3‐10 3.4 Plant Layout Superimposed 3D view on Google Image C3‐11 3.5 Drainage Map C3‐12 3.6 Drinking water Supply Scheme chart of Wasmo C3‐14 3.7 Geo Hydrological map (District Kutch) C3‐16 3.8 Seismo – Tectonic Map C3‐17 3.9 Windrose‐ Winter Season (December 2012) C3‐21 3.10 Windrose – Winter Season (January 2013) C3‐22 3.11 Windrose – winter Season (February 2013) C3‐22 3.12 Wind Frequency distribution Chart C3‐24 3.13 Overall windrose winter Season (Dec 2012 to Jan 2013) C3‐24 3.14 Land use distribution C3‐26 3.14 A Satellite Image View C3‐27 3.15 Land Use / Land Cover Map C3‐27 3.16 Ambient Air Quality Monitoring Stations C3‐29 3.17 Noise Monitoring Station C3‐ 34 3.18 Ground water Monitoring Station C3‐35 3.19 Surface water Monitoring Station C3‐39 3.20 Soil Monitoring Station C3‐42 4.1 Activist Cause Impact C4‐7 4.2 Mitigation Of Probable Impacts C4‐8 4.3 Hourly windrose Diagram for Dec 2012‐Feb 2013 C4‐15 4.4 Isopleth for SPM with APC C4‐16 4.5 Isopleth for SPM without APC C4‐17 4.6 Isopleth For NOx C4‐17 4.7 Isopleth For SOx C4‐18 4.8 Noise Dispersion Contours C4‐27 4.9 Connection road between Project site and NH‐8A C4‐31 4.10 Route Map of NH‐ 8A C4‐32 4.11 Bag Filter System C4‐47
4.12 Flow Scheme and HW generation points of Integrated Iron and steel Production
C4‐47
9.1 Plan For Surface runoff Rain water Harvesting C9‐11 9.2 Organization chart C9‐15
LIST OF TABLES TABLE NO. TITLE PAGE NO. 1.1 Environmental attributes and Frequency of Monitoring C1‐11 1.2 TOR compliance C1‐12 2.1 Project cost C2‐2 2.2 Environmental Selling Around the Project Site C2‐2 2.3 Details of the Proposed Project C2‐9 2.4 Project Implementation Schedule C2‐9 2.5 List of Product C2‐10 2.6 Raw material Required for Existing and Proposed Product C2‐10 2.7 Physical and chemical properties of the raw material C2‐11 2.8 Storage source and transportation Details of raw material C2‐11 2.9 Flue Gas Stack C2‐20 2.10 Land Distributions at site C2‐21 2.11 Land Distribution at site C2‐21 2.12 Total water Requirement for the Existing & proposed project C2‐22 2.13 Wastewater Generation C2‐22 2.14 Fuel Details C2‐25 2.15 Fuel storage Details C2‐25 2.16 Manpower Requirements C2‐25 2.17 Sizing of the ETP units C2‐26 2.18 Flue gas Stack Details (Existing) C2‐27 2.19 Flue gas stack Details (Proposed) C2‐27 2.20 Process gas Stack Details (Proposed) C2‐27 2.21 Hazardous waste Generation C2‐28 2.22 (A) Treated effluent Quality C2‐28 2.22 (B) Flue gas emission standards for existing Plant C2‐29 2.22 (C) Ambient Air Quality standards C2‐29 2.22 (D) Ambient Air Quality Standards in Respect of noise C2‐29 3.1 Salient Feature of Project Area (10 Km Radius) C3‐3 3.2 Sampling & monitoring Location (Study Area‐ 10 Km) C3‐4 3.3 Frequency of Environmental Monitoring C3‐7 3.4 Method of Environmental Sampling & Analysis C3‐7 3.5 Important Features and Ecological Sensitive Location in the study Area C3‐16 3.6 Climatology of Kandla (1961 to 1990) C3‐19 3.7 Site specific Climatic Conditions C3‐20 3.8 Wind Frequency Distribution Data C3‐23 3.9 Summary of site specific windrose during study Area (Dec 2012 to Feb‐2013 C3‐25 3.10 Land use Land Cover C3‐26 3.11 Ambient Air Quality Monitoring Stations C3‐29 3.12 Summary of PM2.5 & RSPM (PM10) concentration (µG/M3
) C3‐30 3.13 Summary of SO2 concentration (µg/m3
) C3‐31 3.14 Summary of NOx concentration (µg/m3
) C3‐31 3.15 National Ambient Air Quality Standards (NAAQS) C3‐32
3.16 Noise level In Existing Plant Area C3‐33 3.17 Noise Level in the study Area C3‐33 3.18 National ambient noise Quality standard C3‐33 3.19 Ground water Quality monitoring Stations C3‐35 3.20 Ground water Quality Analysis Data C3‐37 3.21 Surface Water Quality monitoring stations C3‐39 3.22 Surface water Quality Analysis Data C3‐40 3.23 Soil Quality Monitoring Stations C3‐43 3.24 Soil Quality Analysis Data C3‐43 3.25 Forest Observed in study Area C3‐45 3.26 Details of Flora Observed in Study Area C3‐48 3.27 Details of Agricultural Crops observed In study Area C3‐51 3.28 Details of fauna observed / reported in the study area C3‐54 3.29 Details of Avifauna (waterfowl) observed reported at various village ponds in
the study area C3‐55
3.30 Details of avifauna observed reported at the surveyed site terrestrial birds C3‐56 3.31 Details of Invertebrates Observed in the Study Area C3‐57 3.32 Details of Butterflies of the study Area C3‐57 3.33 Marine Fish Production (Year 2009‐12) C3‐60 3.34 Agriculture Crop Production C3‐60 3.35 Agriculture Crop Production C3‐61 3.36 Agriculture Crop Production C3‐61 3.37 Plankton Density at Each of the Locations Expressed As Nos. /L C3‐64 3.38 Plankton Diversity at Tapar Dam C3‐64 3.39 Species Richness of Plankton at the Selected sampling site C3‐64 3.40 Land use Pattern in the 10Km study Area – Census 2001 C3‐74 4.1 Flue gas Stack C4‐14 4.2 Short term modeling results C4‐15 4.3 Resultant Concentrations Due to Incremental GLCs of cumulative Project C4‐16 4.4 Noise Level from the proposed plant C4‐24 4.5 Predicted Noise Level at the ISP plant Boundaries C4‐24 4.6 Additional traffic due to plant Activity C4‐29 4.7 Emission Factors C4‐29 4.8 Meteorological Data considered for Modeling C4‐30 4.9 Peak Hourly prediction results C4‐30 4.10 Recommendations on Traffic Capacity‐ IRC C4‐32 4.11 Hazardous waste generation C4‐33 4.12 Plantation schedule C4‐37 4.13 List of Recommended species for Plantation C4‐38 4.14 Local Plants species recommended for Greenbelt C4‐38 4.15 Matrix Evaluation for Proposed Project with mitigation measures C4‐51 6.1 Environmental Monitoring Plans during construction Phase C6‐2 6.2 Environmental Monitoring Plan during operation Phase C6‐3 6.3 Budgetary provision for Environmental protection C6‐5 7.1 Occupational and Safety hazardous and Preventive measures C7‐4 7.2 Process Hazardous and Preventive Measures C7‐5
7.3 Storage Hazards and preventive Measures C7‐5 8.1 Action plan for Occupational, Health and safety C8‐11 9.1 Plantation Schedule C9‐13 9.2 Lists of Recommended Species for Plantation C9‐13 9.3 Local Plants Species Recommended for Greenbelt C9‐14 9.4 Details of Duties at Each stage of the EHS cell C9‐16 9.5 Budgetary Provisions for environmental Protection C9‐16 9.6 Budgetary Provisions for Social Upliftment / Year C9‐20
LIST OF ANNEXURE
Annexure I : Standard TOR
Annexure II : Site Specific Green Belt Photograph
Annexure III : Base Line Sampling Photographs
Annexure IV : Ambient Air Quality Results
Annexure V : Water Allocation Application Letter
Annexure VI : NOC copy of Existing Products
Annexure VII : Environmental Standards
Annexure VIII : Existing Plant Photographs, Plant layout and GPS coordinate of Site Specific
Annexure IX : Socio Economic Details
Annexure X : CREP‐Compliance
Annexure XI : Coal Linkage Document
Annexure XII : NOC compliance
Annexure XIII : HG‐ Report
Annexure XIV : Land Document
Draft EIA Report for M/s. Jay Bharat Steel Corporation proposed to install integrated steel and power Plant at
Survey No 405/3,406,407 Village Dhamadka, Bhuj Bhachau Road, Ta- Anjar, Dist; Kutch, Gujarat.
Sr.No. TOR COMPLIANCE Consent to Operate for the on‐going/ existing operation of the project by the Regional Office of the Ministry of Environment and Forests and SPCB.
6. Recent monitoring report from SPCB, which shall include data on AAQ, water quality, solid waste etc. shall be submitted.
Not Applicable
7. Has the unit received any notice under the Section 5 of Environment (protection) Act, 1986 or relevant Section of Air and Water Acts? If so, compliance to the notice(s).
Not Applicable.
8. A line diagram/ flow sheet for the process and EMP. Please refer section 2.13, page C2‐14‐20 & section 6, page‐C6‐1‐5,
9. The earlier questionnaire for industry sector should be submitted while submitting EIA/EMP.
Compressive EMP described in Section 9, page C 9 ‐1‐20.
10. A SITE LOCATION MAP ON Indian map of 1:10, 00,000 scale followed by 1:50,000/1:25,000scale on an A3/A2 sheet with at least next 10 Kms of terrains i.e., circle of 10 Kms and further 10 Kms on A3/A2 sheets with proper 3 D view i.e., DEM (Digital Elevation Model) for the area in 10 Km radius from the proposal site.
11. Present land use should be prepared based on satellite imagery. High‐resolution satellite image data having 1m‐5m spatial resolution like quickbird, lkonos, IRS P‐6 pan sharpened etc. for the 10 Km radius area from proposed site. The same should be used for land used/land‐cover mapping of the area.
12. Break up of small, medium and large farmers from whom the land is being acquired. If small farmers are involved, a detailed R&R plan.
Unit is located in private land. So, No R&R plan is needed.
13. Location of national parks/wildlife sanctuary / reserve forests within 10 Km. radius should specifically be mentioned. A map showing land use/ land cover, reserved forests, wildlife sanctuaries, national parks, tiger reserve etc. in 10 Km of the project site.
There is no national parks/wildlife sanctuary / reserve forests within 10 Km
14. Project site layout plan to scale using AutoCAD showing raw materials, fly ash and other storage plans bore well or water storage, aquifers(within 1 km.) dumping, waste disposal, green areas, water bodies, rivers/drainage passing through the project site should be included
Please refer section 2.5, Figure 2.3, page C2‐5.
15. Details and classification of total land (identified and acquired) should be included.
16. Proposal should be submitted to the Ministry for environment clearance only after acquiring total land. Necessary documents indicating acquisition of land should be included.
Please refer Annexure XIV
17. Rehabilitation & Resettlement (R&R) should be as per policy of the State Govt. and a detailed action plan should be included.
Not Applicable.
18. Permission and approval for the use of forest land and recommendation of the State Forest Departments regarding impact of proposed expansion on the surrounding reserve forests, if applicable, should be included.
Not Applicable.
19. A list of industries containing name and type in 10 Km radius Please refer section 2, Table
Draft EIA Report for M/s. Jay Bharat Steel Corporation proposed to install integrated steel and power Plant at
Survey No 405/3,406,407 Village Dhamadka, Bhuj Bhachau Road, Ta- Anjar, Dist; Kutch, Gujarat.
Sr.No. TOR COMPLIANCE shall be incorporated 2.2, page C2‐3.
20. Residential colony should be located in upwind direction. Yes, residential colony is located in upwind direction.
21. List of raw materials required and source along with mode of transportation should be included. All the trucks for raw material and finished product transportation must be “Environmentally Compliant”.
Please refer section 2.12, Table 2.8, page C2‐11.
22. Studies for fly ash, muck disposal, slurry sludge material and solid waste generated should also be included, if the raw materials used has trace elements and management plan.
Please refer section 9.5 page C9‐6‐7.
23. Manufacturing process details for the process units should be included.
Please refer section 2.13, page C2‐12‐20.
24. Possibility of installation of WHRB will be explored and details included.
Unit is installed AFBC boiler. So, WHRB is not applicable.
25. Mass balance for the raw materials and products should be included.
Please refer section 2. Page C2‐14‐19.
26. Energy balance data for all the components including proposed power plant should be incorporated.
Please refer section 2. Page C2‐16‐17.
27. Site‐specific micro‐meteorological data using temperature, relative humidity, hourly wind speed and direction and rainfall should be collected.
28. Sources of secondary emissions, its control and monitoring as per the CPCB guidelines should be included. A full chapter on fugitive emission and control technologies should be provided.
Please refer section 9.3, page C9‐3 ‐6.
29. An action plan to control and monitor secondary fugitive emissions from all the sources as per the latest permissible limits issued by the Ministry vide G.S.R. 414(E) dated 30th May, 2008.
31. A write up on use of high calorific hazardous waste from all the sources in kiln and commitment regarding use of hazardous waste should be included.
Please refer section 9.5, page C9‐6‐7.
32. Ambient air quality at 8 locations within the study area of 10 Km, aerial coverage from project site with one AAQMS in downwind direction should be carried out.
33. The suspended particulate matter present in the ambient air must be analyzed for the presence of poly‐aromatic hydrocarbons (PAH), i.e., Benzene soluble fraction. Chemical characterization of RSPM and incorporating of RSPM data.
Analysis report indicates that the PAH is not present in the study area. Refer section 3.6.5,page C3‐31
34. Determination of atmospheric inversion level at the project site and assessment of ground level concentration of pollutants from the stack emission based on site‐specific meteorological features.
Please refer section 4.3.1.4, Table 4.2 and 4.3. Figure 4.3 to 4.7, page C4‐13‐18.
35. Air quality modelling for all the plants proposed including mine for specific pollutants needs to be done. APCS for the control of emissions within 50 mg/Nm
3 should be included. Cumulative impacts of steel plant and Captive Power Plant on the ambient air quality shall be assessed
Please refer section 4.3.1.7, Table 4.2 and 4.3. Figure 4.4 to 4.7, page C4‐15‐18.
Draft EIA Report for M/s. Jay Bharat Steel Corporation proposed to install integrated steel and power Plant at
Survey No 405/3,406,407 Village Dhamadka, Bhuj Bhachau Road, Ta- Anjar, Dist; Kutch, Gujarat.
37. Ambient air quality monitoring along with cumulative impact should be included for the day (24 hrs) for maximum GLC along with following: Emission (g/second) with and without the air pollution control measures. Meteorological inputs (wind speed, m/s),wind direction, ambient air temperature, cloud cover, relative humidity & mixing height using SODAR on hourly basis. Model input options for terrain, plume rise, deposition etc. Print‐out of model input and output on hourly and daily average basis. A graph of daily averaged concentration (MGLC scenario) with downwind distance at every 500 m interval covering the exact location of GLC. Details of air pollution control methods used with percentage efficiency that are used for emission rate estimation with respect to each pollutant. Applicable air quality standards as per LULC covered in the study area and % contribution of the proposed plant to be applicable Air quality standard. In case of expansion project, the contribution should be inclusive of both existing and expanded capacity. No. I‐VII are to be repeated for fugitive emissions and any other source type relevant and used for industry. Graphs of monthly average daily concentration with down‐wind distance. Specify when and where the ambient air quality standards are exceeded either due to the proposed plant alone or when the plant contribution is added to the background air quality. Fugitive dust protection or dust reduction technology for workers within 30m of the plant active areas.
Please refer section 4.3.1.4, Table 4.1 ,4.2 and 4.3. Figure 4.3 to 4.7, page C4‐13‐18.
38. Impact of the transport of the raw materials and end products on the surrounding environment should be assessed and provided.
Please refer section 4.3.3.6 to 4.3.3.11, page C4‐27‐30.
39. One season data for gaseous emissions other than monsoon season is necessary.
Existing plant is not in operation. So it is not Applicable.
40. Presence of aquifer(s) within 1 km of the project boundaries management plan for recharging the aquifer should be included.
Please refer Annexure XIII for detailed Rainwater harvesting plan
41. Source of surface/ground water level, site (GPS), cation, anion (Ion chromatograph), metal trace element (as above) chemical analysis for water to be used along with a Piper and Piper Duro‐V diagram. If surface water is used from river, rainfall, discharge rate, quantity, drainage and distance from project site should also be included.
Source of water , refer Annexure‐ V, Please refer section 9.7.1, page C‐9‐10‐11. for detailed Rainwater harvesting plan in Annexure‐XIII
Draft EIA Report for M/s. Jay Bharat Steel Corporation proposed to install integrated steel and power Plant at
Survey No 405/3,406,407 Village Dhamadka, Bhuj Bhachau Road, Ta- Anjar, Dist; Kutch, Gujarat.
Sr.No. TOR COMPLIANCE 42. Ground water analysis with bore well data, litho‐logs, drawdown
and recovery tests to quantify the area and volume of aquifer and its management.
Please refer Section 3.8.3, Table 3.20, Page C3‐37‐38. And Annexure‐XIII.
43. Ground water modelling showing the pathways of the pollutants should be included.
Please refer section 9.7.1, page C‐9‐10‐11. for detailed Rainwater harvesting plan in Annexure‐XIII
44. Column leachate study for all types of stockpiles or waste disposal sites, at 20oC‐50oC should be conducted and included.
Please refer section 9.7.1, page C‐9‐10‐11. for detailed Rainwater harvesting plan in Annexure‐XIII
45. Action plan for rainwater harvesting measures at plant site should be submitted to harvest rainwater from the roof tops and storm water drains to recharge the ground water and also to use for the various activities at the project site to conserve fresh water and reduce the water requirement from other sources. Rain water harvesting and ground water recharge structures may also be constructed outside the plant premises in consultation with local Gram Panchayat and Village Heads to augment the ground water level. Incorporation of water harvesting plan for the project is necessary, if source of water is bore well.
Please refer section 9.7.1, page C‐9‐10‐11. for detailed Rainwater harvesting plan in Annexure‐XIII
46. Permission for the drawl of water from the concerned authority and water balance data including quantity of effluent generated recycles and reused and discharged is to be provided. Methods adopted/to be adopted for the water conservation should be included.
Permission from GWIL (Narmada canal water supply authority is under process)Please refer Annexure V.
47. A note on the impact of drawl of water on the nearby River during lean season.
There is no water withdrawal. Surface water to be utilised.
48. Surface water quality of nearby River (60 m upstream and downstream) and other surface drains at eight locations must be ascertained.
49. If the site is within 10km radius of any major river, Flood Hazard Zonation Mapping is required at 1:5000 to 1:10,000 scales indicating the peak and lean river discharge as well as flood occurrence frequency.
Not Applicable as only one seasonal river flows within 10‐km area.
50. A note on treatment of wastewater from different plants, recycle and reuse for different purposes should be included.
Please refer section 2.15.7 , page C2‐25‐26.
51. Provision of traps and treatment plants are to be made, if water is getting mixed with oil, grease and cleaning agents.
Oil would be skimmed out from the wastewater if required
52. If the water is mixed with solid particulates, Proposal for sediment pond before further transport should be included. The sediment pond capacity should be 100 times the transport capacity.
Suspended solid would be removed from settling tank after chemical treatment at ETP
53. Ground water monitoring minimum at 8 locations and near solid waste dump zone, Geological features and Geo‐hydrological status of the study area are essential as also. Ecological status
Sr.No. TOR COMPLIANCE (Terrestrial and Aquatic) is vital.
54. Action plan for solid/hazardous waste generation, storage, utilization and disposal. A note on the treatment, storage and disposal of all type of solid waste should be included. End use of solid waste viz. fly ash etc. and its composition should be covered.
55. All stock piles will have to be on top of a stable liner to avoid leaching of materials to ground water.
Stockpiles must be provided on top of stable liner.
56. Action plan for the green belt development plan in 33% area should be included. The green belt should be around the project boundary and around the project boundary and a scheme for greening of the travelling roads should also be incorporated. All rooftops/terraces should have some green cover.
Please refer section 9.9 and Table 9.1,9.2,9.3, page C9‐12‐14.
57. A scheme for rainwater harvesting has to be put in place. Incorporation of water harvesting plan for the project is necessary, if source of water is bore well. Efforts should be made to make use of rain water harvested. If needed, capacity of the reservoir should be enhanced to meet the maximum water requirement. Only balance water requirement should be met from other sources.
Please refer 9.7.1, page C9‐10‐11 for detailed Rainwater harvesting plan. Also refer Annexure XIII
58. Detailed description of the flora and fauna (terrestrial and aquatic) should be given with special reference to rare, endemic and endangered species.
Please refer section 3.9.1, page C3‐43‐64.
59. Action plan for the green belt should be included. The green belt development plan in 33% area should be scheme for greening of the travelling roads should also be incorporated. All rooftops/terraces should have some green cover.
Please refer section 9.9 and Table 9.1,9.2,9.3, page C9‐12‐14.
60. Detailed description of the flora and fauna (terrestrial and aquatic) should be given with special reference to rare, endemic and endangered species
Please refer section 3.9.1 to , page C3‐43‐64.
61. Disaster Management Plan including risk assessment & damage control needs to be addressed and included. Landslide hazard map and mitigation plan, Earthquake history and management plan should be submitted.
Please refer section 8.0. , page C8‐1‐14
62. Occupational health: Details of existing Occupational & Safety Hazards. What are the exposure levels of above mentioned 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. 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, colour vision and any other ocular defect) ECG, during pre‐placement and periodical examinations give the details of the same. Details regarding last month analysed data of above mentioned parameters as per age, sex, duration of exposure and department wise. Annual report of health status of workers with special reference
Please refer section 7.0. , page C7‐1‐17.
Draft EIA Report for M/s. Jay Bharat Steel Corporation proposed to install integrated steel and power Plant at
Survey No 405/3,406,407 Village Dhamadka, Bhuj Bhachau Road, Ta- Anjar, Dist; Kutch, Gujarat.
Sr.No. TOR COMPLIANCE to Occupational Health and Safety. Action plan for the implementation of OHS standards as per OSHAS/USEPA. Plan and fund allocation to ensure the occupational health & safety of all contracts and sub‐contract workers.
63. Plan for the implementation of the recommendations made for the steel plant in the CREP guidelines must be prepared.
Please refer Annexure X.
64. Corporate Environment PolicyDoes the company have a well laid down Environment Policy approved by its Board of Directors? If so, it may be detailed in the EIA reports. 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 EIA. 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. Does the company have system of reporting of noncompliance/violations of environmental norms to the Board of Directors of the company and / or shareholders or stakeholders at large? This reporting mechanism should be detailed in EIA report.
Corporate Environment Policy is under preparation as this is the new unit Please refer section 9.12, Page C9‐17 and Table 9.6, page 9‐20 for CSR.
65. At least 5% of the total cost of the project should be earmarked towards the Enterprise Social Commitment based on Public Hearing issued and item –wise details along with time bound action plan should be prepared and incorporated
66. A note on identification and implementation of Carbon Credit project should be included
Please refer section 4.7.6 , page C4‐47‐48.
67. Total capital cost and recurring cost /annum for environmental pollution control measures
Please refer section 6.5. Table 6.3, page C6‐4‐5.
68. Public hearing issues raised and commitments made by the project proponent on the same should be included separately in EIA/EMP Report in the form of tabular chart with financial budget for complying with the commitments made.
Not covered here, as this is draft EIA report. The issues and commitments to be included in final EIA Report.
69. Any litigation pending against the project and/ or any direction / order passed by any Court of law against the project, if so, details thereof.
Not Applicable.
Draft EIA Report for M/s. Jay Bharat Steel Corporation proposed to install integrated steel and power Plant at
Survey No 405/3,406,407 Village Dhamadka, Bhuj Bhachau Road, Ta- Anjar, Dist; Kutch, Gujarat..
6 Present Land use Waste land 7 Climatic Conditions
(As per IMD) Annual average Maximum Temperature : 21.3° C to 35.3° C Annual average Minimum Temperature : 8.9° C to 22.6° C Annual average Rainfall : 710 mm Maximum average humidity: 96% Minimum average humidity: 43%
8 Existing drainage pattern at site
Nearly flat terrain at site. Drainage pattern of study area depicted in figure 3.5
9 Hills No Hills land in the Project area;10 Forest Land No forest land in the Project area; 11 Surface water bodies Tappar dam (7.81 km) 12 Nearest village
(habitation) Budhar Mora, (2.2 Km)
13 Nearest Town Gandhidham (26 km, SSW)
14 Dist. Head quarters Bhuj 49.86 km
15 Nearest Railway Station Gandhidham Railway Station,26 Km, SSW Bhachau Railway Station 15 Km, ESE
SR. NO PARAMETER DESCRIPTION 1 Land Requirement 17.84 Acre= 72195.36 m2 2 Present Land use Westland category (Land without scrub) 3 Water Requirement 235KLD for Domestic and Industrial purpose. 4 Source of Power Paschim Gujarat Vij Company Ltd 5 Employment 250 approx. 6 Project coast 90Crore (Existing : 10 Crore, Proposed : 80 Crore)
2.9.1 Project cost
The total cost of the project is estimated at Rs. 90 Crore.
2.10 PROPOSED SCHEDULE FOR APPROVAL AND IMPLEMENTATION
The project from concept stage to commissioning would take about 18 months from the
zero date. Since the project is being setup by experienced persons, the planning and
implementation of the project is not much difficult job. Services of experienced consultants
are being utilized for detailed planning, preparation of techno‐economic feasibility report
and other associated activities like discussions with financial institutions, phasing of capital
expenditure etc. However, the implementation primarily will depend upon the statutory
environmental clearance.
The schedule for implementing the proposed project, as provided by the company, is given
in Table 2.4
TABLE 2.4 PROJECT IMPLEMENTATION SCHEDULE
SR. NO. PARTICULARS APPROXIMATE PERIOD 1. Company Formation 3 months
2. Procurement Of Lease Hold / Freehold Land and Clearances
Land already occupied by promoters
Civil Work 3. I) Land Development 1 Month 4. Ii) Foundation For Building 2 Month 5. Iii) Foundation For Machinery 1 Month
6. Iv) Construction Of Building 6 Months Plant & Machinery 7. I) Order For Bought Out Items 2 Months 8. Ii) In House Fabricating 6 Months 9. Iii) Receipt Of Bought Out Items 8‐12 Months 10. Iv) Assembling/Fitting 3 Months 11. Trial Run 1 Month 12. Commercial Production 3 Months
Draft EIA Report for M/s. Jay Bharat Steel Corporation proposed to install integrated steel and power Plant at
Survey No 405/3,406,407 Village Dhamadka, Bhuj Bhachau Road, Ta- Anjar, Dist; Kutch, Gujarat..
The area allocated at site for various manufacturing and other plant facilities are provided in
Table 2.10.
TABLE 2.10 LAND DISTRIBUTIONS AT SITE (Approx.)
Sr. No.
Details Existing Survey No 407 in Acres
Proposed Survey No 405/3, 406 in Acres
Total Area in Acres
1 Cycle / scooter Parking 0.04 0.1 0.14 2 Greenbelt Area 1.8 4.0872 5.8872 3 Car parking 0.0 0.35 0.35 4 Administrative Building 0.097 0 0.097 5 DG Set / Compressor House 0.096 0 0.096 6 Over head Water Tank 0.071 0 0.071 7 Service, Workshop and
Refractories 1.9772 3.9428 5.92 8 Open Area 1.2788 4 5.2788 9 Total Land Area 5.36 12.48 17.84
TABLE 2.11 LAND DISTRIBUTIONS AT SITE (Approx.)
Sr. No.
Details Existing Survey No 407 in Square mtr
Proposed Survey No 405/3, 406 in Square mtr
Total Area in Square mtr
1 Cycle / scooter Parking 161.873 404.6825 566.5555 2 Greenbelt Area 7284.29 16540.18 23824.47 3 Car parking 0 1416.389 1416.389 4 Administrative Building 392.542 0 392.542 5 DG Set / Compressor House 388.495 0 388.4952 6 Overhead Water Tank 287.325 0 287.3246 7 Service, Workshop and
Refractories 8001.38 15955.82 23957.2 8 Open Area 5175.08 16187.3 21362.38 9 Total Land Area 21690.98 50504.38 72195.36
.
2.15.2 Water requirement
Water requirement for the project will be met from the Narmada water supply. The details
of water requirement for various processes/purposes are given in Table2.12Refer Figure 2.4
to 2.6for Water Balance diagram.
Draft EIA Report for M/s. Jay Bharat Steel Corporation proposed to install integrated steel and power Plant at
Survey No 405/3,406,407 Village Dhamadka, Bhuj Bhachau Road, Ta- Anjar, Dist; Kutch, Gujarat..
24 Hours** 80 µg/m3 Note: * Annual Arithmetic mean of minimum 104 measurements in a year taken twice a week 24 hourly at uniform interval ; **24 hourly/8 hourly values should be met 98% of the time in a year, however 2% of the time, it may exceed but not on two consecutive days.
2.18.3 Ambient noise standards
The ambient noise level standards for industrial area are as depicted in Table 2.22(D).
TABLE 2.22(D) AMBIENT AIR QUALITY STANDARDS IN RESPECT OF NOISE
Area code Category of Area/zone Limits in db(A) Leq Day Time Night Time
A Industrial area 75 70
Draft EIA Report for M/s. Jay Bharat Steel Corporation proposed to install integrated steel and power Plant at
Survey No 405/3,406,407 Village Dhamadka, Bhuj Bhachau Road, Ta- Anjar, Dist; Kutch, Gujarat..
Note: 1. Day time shall mean from 6.00 a.m to 10.00 p.m. 2. Night time shall mean from 10.00 p.m to 6.00 a.m. 3. db (A) Leq denotes the time weighted average of the level of sound in decibels on scale a which
is relatable to human hearing. 4. A “decibel” is a unit in which noise is measured. 5. “A”, in db(A) Leq, denotes the frequency weighting in the measurement of noise and
corresponds to frequency response characteristics of human ear. 6. Leq: it is energy mean of the noise level over a specified period.
2.19 NORMS FOR HAZARDOUS WASTE DISPOSAL
The industry shall have to obtain the ‘Authorization’ for the relevant categories of waste to
be generated before operation of the project, under the HW (M&H) Rules‐ 1989, as
amended from time to time, from the Gujarat Pollution Control Board for disposal of
hazardous waste and it shall have to obtain the membership of a common TSDF site and
comply with all the provisions applicable under the said Rules.
Draft EIA Report for M/s. Jay Bharat Steel Corporation proposed to install integrated steel and power Plant at
Survey No 405/3,406,407 Village Dhamadka, Bhuj Bhachau Road, Ta- Anjar, Dist; Kutch, Gujarat.
Annexure‐1. The details of the study period, frequency of sampling & method of
environmental sampling & analysis are shown below in succeeding paragraphs under
respective titles.
3.2.1 Study area & sampling locations
3.2.1.1 Study area
The project area is situated in the Western part of Gujarat, which is very well known for its
natural beauty and non‐polluting industrial development. The region is exhibiting good area
and a wellknown Tapar Dam. The area was considerably undeveloped in early 90s; but, in
last decade by sharing vital input through industrial development and implementation of
government actions/plan of development, the area has shown significant development. For
the purpose of the EIA study, area falls within 10 km radius from the project site
(uncultivated land, Dhamadka village) was selected as study area. The base map of study
area & sampling locations is illustrated below in Fig. 3.1, whereas, the sailent features of the
project area are tabulated in subsequent Table 3.1.
TABLE 3.1 SAILENT FEATURES OF PROJECT AREA (10 KM RADIUS)
Sr.No. Nearest Infrastructure Feature Approx. Aerial Distance from project site 1 Geographical Position Lat.: 23°18'54.6909"N,
Long.: 70°11'29.2821"E 2 Elevation above sea level 56 Meters 3 Nearest Village Bhudarmora‐2.2km North 4 Nearest Town Bhachau ‐15km South East
5 Nearest National Highway NH‐12.5km South East 6 Nearest State Highway SH‐42 North (Bhuj‐Bhachu Highway) 7 Nearest Railway Station Bhachau ‐15km South East 8 Nearest Airport Kandla‐26km South West 9 Nearest Surface water
Resource/Reservoir Tapar Dam‐7.8km SW
10 Forest Land No forest land in the study area 11 National Park/Sanctuary/ or
Ecologically Sensitive Area Within 10km Not falling any ecological sensitive areas.
12 Tourist Places Within 10km Not falling any tourist place.
Draft EIA Report for M/s. Jay Bharat Steel Corporation proposed to install integrated steel and power Plant at
Survey No 405/3,406,407 Village Dhamadka, Bhuj Bhachau Road, Ta- Anjar, Dist; Kutch, Gujarat.
A. Air Environment Meteorological Data Project site Hourly continuous during study
period Ambient Air Quality 8 Locations in the study area 24 hourly twice a week during
study period B.Noise 8 Locations from study area Once in study period C.Water Ground Water Grab samples from 8 locations from
study area Once in study period
Surface Water Grab samples from 7 locations from study area
Once in study period
D.Soil Quality Surface soil samples from 8 locations within study area
Once in study period
E.Land use‐Land cover & Topography
Study area (10km radius) Once in study period
F.Ecological Data Study area (10km radius) Once in study period G. Socioeconomic Data Study area (10km radius) Once in study period H. Other Maps Study area (10km radius) Once in study period
TABLE 3.4 METHOD OF ENVIRONMENTAL SAMPLING & ANALYSIS
Attributes Method Sampling/ Preservation Analysis
A. Air Environment I. Meterorological
data II. Ambient Air Quality
Automatic weather station (AWS) As per CPCB Guidline (Respirable dust sampler and PM2.5 Sampler)
Computer aided data analysis. As per IS5182 [Part‐,(2) &(33)] 2006
B. Noise Instrument: Noise level meter Mathematical calculations C. Water & Waste water
i. Ground Water Standard methods for examination of water and wastewater analysis published by APHA
Standard method for expantion of water and wastewater analysis published by APHA.
D. Soil Quality Laboratory guide for conducting soil test & plant analysis.
Laboratory Guide for conducting soil test & plant analysis.
E. Land use‐Landcover & Topography & Other Maps
Satellite imageries, IRS P6, LISS III 2013 data, Sacale 1:50000, collected from NRSC, Hyderabad.
Primary thematic mapping, Image processing, Topographical studies using ArcGIS, Erdas imagine and Surfur tools.
F. Ecological Data Secondary data collection from district forest department &Wildlife Forest Dept & Primary study of basic survey of non‐forest area as well as field verification details
Necessary study with reference to scheduled species as per regulatory provisions and LUCN guideline & information.
G. Socio‐Economic Data Census of India 2001 Manual interpretation and analysis
Draft EIA Report for M/s. Jay Bharat Steel Corporation proposed to install integrated steel and power Plant at
Survey No 405/3,406,407 Village Dhamadka, Bhuj Bhachau Road, Ta- Anjar, Dist; Kutch, Gujarat.
TABLE 3.9 SUMMARY OF SITE SPECIFIC WINDROSE DURING STUDY AREA
(DEC‐2012 TO FEB‐2013)
Season 1st Predominant
2ndpredominant Calm (%)
December 2012 NW (53%) NNE (16.5%) 8.51 January 2013 NW (34%) NNE (24%) 8.51 February 2013 NW (44.8%) NNE (19.4%) 8.51 Winter (overall) NW (52.8 %) NNE (17%) 8.51
3.5 LANDUSE PATTERN OF THE STUDY AREA
The land‐use & land cover map of the 10 km radial study area from the project site has been
prepared using IRS R2 LISS III (17th May 2013 Path 91 Row 56 and 05th June 2013 path 90 and
Row 55)satellite image with reference to NRSC Image. Land use pattern of the study area as
well as the catchment area was carried out by standard methods of analysis of remotely
sensed data and followed by ground truth collection and interpretation of satellite data. The
outcome of land use study has been presented below in subsequent table and figures. The
Land use map of the 10Km study area is presented in Figure 3.13a.
3.5.1 Land use/land covers classification result
A total of sixmain classes and eleven sub‐class of land use/land cover classes have been
demarcated in the study area following Level III classification (Table 3.10). A thematic map
suitable for 1:50,000 scale map generation incorporating these classified categories has
been prepared and considering that the area of the project is considerably small a large
scale map is prepared (Fig. 3.14). The area as a whole represents a plain drained by a
number of south east flowing river which debouche into the TaparRiver that flows from
west to northern margin middle of the project site. Large crop land covered for 59.83% of
the total area and water body area 2.36%, mudflat 1.6% and salt pan 0.2%of the total area
and 22.85% land with & without scrub has developed mainly in the area adjacent to the
study area. The exposed part of side bars and river and dried up river beds constitute this
category of land cover (Fig. 14, Table 3.10).
The agricultural land constitutes the dominant category of land use covering as much as
59.59 % and Current fallow land 5.59% of the total area (Table 3.10). Active creek of the all
Draft EIA Report for M/s. Jay Bharat Steel Corporation proposed to install integrated steel and power Plant at
Survey No 405/3,406,407 Village Dhamadka, Bhuj Bhachau Road, Ta- Anjar, Dist; Kutch, Gujarat.
TABLE 3.15 NATIONALAMBIENT AIR QUALITY STANDARDS (NAAQS)
Sr No Pollutant Time weighted average
Concentration in ambient air Industrial, Residential, Rural and Other area
Ecologically Sensitive area (notified by central Govt)
Method of Measurement
(1) (2) (3) (4) (5) (6) 1. Sulphur Dioxide
(SO2) µg/m3
Annual * 24 Hours**
50 80
20 80
Improved West and Gaeke Ultraviolet Fluorescence
2. Nitrogen Dioxide (NO2) µg/m
3
Annual * 24 Hours**
40 80
30 80
Modified Jacob &Hochheiser (Na‐Arsenite) Chemiluminescence
3. Particulate Matter (size less than 10 µm) PM10 µg/m
3
Annual * 24 Hours**
60
100 60
100 Gravimetric TOEMBeta attenuation
4. Particulate Matter (size less than 2.5 µm) PM2.5 µg/m
3
Annual * 24 Hours**
40 60
40 60
Gravimetric TOEM Beta attenuation.
* Annual arithmetic mean of minimum 104 measurements in a year at a particulate site taken twice a week 24 hourly at uniform intervals. ** 24 hourly or 08 hourly or 01 hourly monitored valves, as applicable, shall be complied with 98% of the time in a year. 2% of the time, they may exceed the limits but not on two consecutive days of monitoring. NOTE: ‐ Whenever and wherever monitoring results on two consecutive days of monitoring exceed the limits specified above for the respective category, it shall be considered adequate reason to institute regular or continuous monitoring and further investigation.
3.7 NOISE ENVIRONMENT
Noise can be defined as unwanted sound or sound in the wrong place at the wrong time.
Noise can also be defined as any sound that is undesirable because it interferes with speech
and hearing, is intense enough to damage hearing or is otherwise annoying.
A variety of sources produce noise, potentially hazardous to hearing depending upon the
intensity and duration of exposure. These include transportation systems, construction
equipment, industrial activities and many common appliances.
The main source of noise pollution in the study area is vehicular traffic on highway due to
vicinity of large scale industries. The Ambient Noise levels in the study area are compared
with standards of residential zone. The site study was undertaken for assessing the noise
Draft EIA Report for M/s. Jay Bharat Steel Corporation proposed to install integrated steel and power Plant at
Survey No 405/3,406,407 Village Dhamadka, Bhuj Bhachau Road, Ta- Anjar, Dist; Kutch, Gujarat.
levels in the plant area and study area are shown in Table 3.16 and Table 3.17 respectively.
The Survey involved in determination of noise levels in db (A) at 8 locations in study area.
TABLE 3.16 NOISE LEVEL IN EXISTING PLANT AREA
Sr. No. Location Day Equivalent; dB(A) Night equivalent; dB (A) 1 Near Process Area 64.3 55.5 2 Near Office 51.2 44.8 3 Near Main Gate 66.4 53.3 4 Near Raw Material 56.7 43.2 5 Near Finished Product 53.3 40.2 6 Near Utility Area 51.5 41.5
Found in krishna nager Village,TDS value found in the Range 378‐3441 mg/l Were Minimum
Value is found in morgar Village and Maximum Value Found in Krishna nager Village. Iron
Value Fond in the Range 0.16 ‐ 0.38 μs/cm Were Minimum Value is found in Morgar Village
and Maximum Value Found in Lunva Village, Nitrate Value Fond in the Range 3.1‐4.4 μs/cm
Were Minimum Value is found in Krishna Villageand Amraparand Maximum Value Found in
Morgar Village.Fluride Value Fond in the Range <0.1 – 0.23 μs/cm Were Minimum Value is
found in Tapper & Dhudhai Village and Maximum Value Found in Krishna Village. Sulphate
Value Found in the Range 17.3‐116.4 μs/cm Were Minimum Value is found in Dhudhai
village and Maximum Value Found in Krishna Village. Alkalinity Value Found in the Range
103.1 ‐ 763.4 μs/cm Were Minimum Value is found in Tapper village and Maximum Value
Found in KrishnaNagar Village. Calcium Value Found in the Range 78.8 ‐ 740 μs/cm Were
Minimum Value is found in Tapper village and Maximum Value Found in KrishnaNagar
Village. Magnesium Value Found in the Range 24.4‐66 μs/cm Were Minimum Value is found
in Amarpar village and Maximum Value Found in Krishna nager.
Draft EIA Report for M/s. Jay Bharat Steel Corporation proposed to install integrated steel and power Plant at Survey No 405/3,406,407 Village Dhamadka, Bhuj Bhachau
Road, Ta- Anjar, Dist; Kutch, Gujarat.
CHAPTER 3 :DESCRIPTION OF ENVIRONMENT
ANACON LABORATORIES PVT. LTD. C3‐37
NAGPUR, MAHARASHTRA
TABLE 3.20 GROUND WATER QUALITY ANALYSIS DATA
S.No Test Parameters Unit Acceptable
Limit Permissible Limit
GW1 GW2 GW3 GW4 GW5 GW 6 GW 7 GW8
1 pH Value ‐ 6.5 to 8.5 NR 6.96 7.13 6.71 7.22 6.81 7.34 7.70 7.45
20 Manganese as (Mn) mg / l 0.1 < 0.05 <0.05 <0.05 <0.05 <0.05 <0.05 <0.05 <0.05 <0.05
Draft EIA Report for M/s. Jay Bharat Steel Corporation proposed to install integrated steel and power Plant at Survey No 405/3,406,407 Village Dhamadka, Bhuj Bhachau
Note: NR – No relaxiation.Note: All parameters are expressed in mg/lit except pH and conductivity unless specified BDL means below detectable limit. NR – No Relaxation.
Draft EIA Report for M/s. Jay Bharat Steel Corporation proposed to install integrated steel and power Plant at
Survey No 405/3,406,407 Village Dhamadka, Bhuj Bhachau Road, Ta- Anjar, Dist; Kutch, Gujarat.
Station Code Location Distance from Site (km) Direction S1 Plant Area ‐‐ ‐‐ S2 Morgar 3.20 NNE S3 Krishna Nagar 6.23 NNE S4 Lunva 6.35 ES S5 Pashuda 9.43 SSW S6 Tapar dam 9.30 SW S7 Dudhai 6.85 WWN S8 Amrapar 7.50 WN
As mentioned above that Kutch falls under the ‘Desert’ Biogeographic zone the vegetation
as observed was dry scrubland along with crop fields and few of the trees of evergreen type.
The present ecology and biodiversity studies was conducted during summer – 2013, the
vegetation appeared to be dry.
Moreover, crops in majority of the fields were ready for the harvest. The source of irrigation
in this belt of the state is by and large the rain water, only one irrigation dam, namely ‘Tapar
Dam’ in village Tapar was falling within the limits of the study area. Village Tapar was
located outside the 10 km radius of the study area but the major part of the dam was within
the study area. Dams was almost 60 % filled with water which not only supplied water to
the adjoining crop fields but also supported a good number of waterfowl. The location of
proposed project was relatively away from the coastline and therefore the marine
component was not to be taken into consideration. The present survey was conducted with
an objective to document the local flora and fauna in the 10 km radius of the village
Dhamadka.
National Parks/Sanctuaries and Biosphere Reserves, etc.
There is no National Park, Sanctuary, Biosphere Reserves, Wildlife Corridors, Tiger/Elephant
reserves within the study area which has been confirmed by ground truth survey.
However, Working Plan of Kachchh East Forest Divisions, Bhuj showed 152.88 ha. of RF
comprises in Morgar (~4.08 Km away from Project site in ENE direction) is a part of Kachchh
Desert Wildlife Sanctuary but during the ground truth survey we have not observed any
significant forest area at Morgar village. List of forest area involved near villages within
study area are shown in Table.3.25.
Table 3.25 FOREST OBSERVED IN STUDY AREA
Sr. No. Forest area involves near villages within study area Distance Direction 1. Dudhai, Dapar 4km SW 2. Devisar 6.7 West 3. Lunva 6.2 SE 4. Pashuda 5.8km South
Draft EIA Report for M/s. Jay Bharat Steel Corporation proposed to install integrated steel and power Plant at
Survey No 405/3,406,407 Village Dhamadka, Bhuj Bhachau Road, Ta- Anjar, Dist; Kutch, Gujarat.
Source: Working Plan (Volume –I) for Kutch – East Forest Division, Bhuj‐Kutch and Discussion with local people & primary survey conducted by Anacon Team
TABLE 3.27 DETAILS OF AGRICULTURE CROPS OBSERVED IN STUDY AREA
Sr.No. Scientific Name Local Name 1. Abelmoschus esculentus Bhinda
TABLE 3.28 DETAILS OF FAUNA OBSERVED/REPORTED IN THE STUDY AREA
Sr. No. Scientific Name English Name
MAMMALS 1. Rattus rattus House Rat 2. Mus musculus House Mouse 3. Funambulus pennanti Five striped palm squirrel 4. Pteropus giganticus Indian Flying Fox 5. Lepas nigricollis Indian Hare 6. Herpestes edwardsi Mongoose
Draft EIA Report for M/s. Jay Bharat Steel Corporation proposed to install integrated steel and power Plant at
Survey No 405/3,406,407 Village Dhamadka, Bhuj Bhachau Road, Ta- Anjar, Dist; Kutch, Gujarat.
AMPHIBIANS 1. Duttaphrynus melanostcitus Common Indian Toad 2. Bufo stomaticus Marbled Toad 3. Euphlictis cyanophlictis Skittering Frog 4. Haplobatrachus tigerinus Indian Bull Frog
REPTILES 1. Lissemys punctata Flap‐Shell Turtle 2. Hemidactylus flaviviridis Northern House Gecko 3. Hemidactylus brookii Brook’s Gecko 4. Calotes versicolor Common Garden Lizard 5. Sitana ponticeriana Fan‐throated lizard 6. Chameleon zeylanicus Indian Chameleon 7. Mabuya carinata Common Skink 8. Mabuya macularia Grass Skink9. Varanus sp. Common Indian Monitor 10. Eryx johnii Russell’s Earth Boa 11. Eryx conicus Common Sand Boa 12. Ptyas mucosus Common Ratsnake13. Xenochropis piscator Checkered Keelback 14. Oligodon arnensis Common Kukri Snake 15. Lycodon aulicus Common Wolf Snake 16. Naja naja Indian Cobra 17. Daboia russeli Russel’s Viper
Source: Working Plan (Volume –I) for Kutch – East Forest Division, Bhuj‐Kutch and Discussion with local people & primary survey conducted by Anacon Team
TABLE 3.29 DETAILS OF AVIFAUNA (WATERFOWL) OBSERVED/REPORTED AT
VARIOUS VILLAGE PONDS IN THE STUDY AREA
Sr.No. Scientific Name Common Name 1. Podiceps cristatus Great crested grebe 2. Tachybaptus ruficolis Little grebe3. Pelecanus onocrotalus Rosy pelican4. Pelecanus philippensis Spot‐billed pelican 5. Anhinga Melanogaster Darter 6. Phalacrocorax niger Little Cormorant
7. Phalacrocorax fuscicollis Indian Cormorant 8. Phalacrocorax carbo Great Cormorant 9. Anas poecilorhyncha Spot‐Billed Duck 10. Anas crecca Common Teal
Draft EIA Report for M/s. Jay Bharat Steel Corporation proposed to install integrated steel and power Plant at
Survey No 405/3,406,407 Village Dhamadka, Bhuj Bhachau Road, Ta- Anjar, Dist; Kutch, Gujarat.
Source: Working Plan (Volume –I) for Kutch – East Forest Division, Bhuj‐Kutch and Discussion with local people & primary survey conducted by Anacon Team
TABLE 3.30 DETAILS OF AVIFAUNA OBSERVED/REPORTED AT THE SUREYED SITE
TERRESTRIAL BIRDS
Sr. No. Scientific Name Common Name 1. Pavo cristatus Indian Peafowl 2. Francolinus Pondicerianus Grey Francolin 3. Coracias benghalensis Indian Roller4. Halcyon smyrnensis White Breasted Kingfisher 5. Ceryle rudis Pied Kingfisher 6. Merops orientalis Green Bee‐Eater 7. Upupa epops Hoopoe
8. Eudynamys scolopaceae Asian Koel 9. Centropus bengalensis Lesser Coucal 10. Psittacula karmeri Rose Ringed Parakeet 11. Athene brama Spotted Owlet12. Columba livia Blue Rock Pigeon 13. Streptopelia chinensis Spotted Dove
11. Anas Strepera Gadwall 12. Anas Penelope Euasian wigeon 13. Anas acuta Northern Pintail 14. Anas clypeata Northern shovellar15. Aythya ferina Common Pochard 16. Bubulcus ibis Cattle Egret 17. Egretta garzetta Little Egret18. Ardeola grayii Indian Pond Heron19. Ardea cinererea Grey Heron 20. Ardea purpurea Purple Heron 21. Egretta gularis Western Reef Egret22. Pseudibis papillosa Black Ibis 23. Plegadis falcenellus Glossy Ibis 24. Platelea leucoroidea Spoonbill 25. Mycteria leucocephala Painted Stork26. Phoenicopterus ruber Greater Flamingo 27. Gallinago gallinago Common Snipe 28. Vanellus indicus Red‐Wattled Lapwing 29. Tringa totanus Common Redshank30. Tringa nebularia Common Greenshank 31. Tringa stagnatilis Marsh Sandpiper 32. Actitis hypoleucos Common Sandpiper 33. Philomachus pugnax Ruff
TABLE 3.39 SPECIES RICHNESS OF PLANKTON AT THE SELECTED SAMPLING SITES
Sampling Site Plankton
Total Phytoplankton Zooplankton
Tapar Dam 06 05 11
Inference for the Plankton Analysis:
Density, diversity and species richness are some of the basic parameters used in ecological
studies to judge the status of any ecosystem under consideration. In case of aquatic
ecosystem (both freshwater and marine) apart from the higher plants and animals, plankton
community forms a major component of the ecosystem.
Observation:
• In the present study the density of phytoplankton was found to be 13/L, whereas the
density of zooplankton was also found to be 11/L in Tapar Dam.
• The species richness was observed to be higher in Phytoplankton than in
zooplankton.
Conclusion:
The plankton diversity and density observed at Tapar Dam location was good. Since, the proposed project is not involved with any kind of toxic effluents to be dischargedin the natural water bodies, plankton herein would be unaffected and hence the higher trophic levels shall remain safe.
Draft EIA Report for M/s. Jay Bharat Steel Corporation proposed to install integrated steel and power Plant at
Survey No 405/3,406,407 Village Dhamadka, Bhuj Bhachau Road, Ta- Anjar, Dist; Kutch, Gujarat.
Notes: H.H: House Hold, Total_P: Total Population, P_SC: Population Scheduled Caste, P_ST: Population Scheduled tribe, P_06: Total population under age six.
According to census 2001, 5624 households are dwelling within the 10 km radius of the
project site. The total population in the study area is 24323 out of it 1927 (7.92%) are
belonging to scheduled caste (SC) and 2318 (9.53%) belong to scheduled Tribe. This
indicates that the disadvantages section of the society encompasses 4245 (17.45%)
individuals. Among the disadvantaged group, the numbers of scheduled caste are more than
the scheduled tribes. Moreover the data of children below six years of age group indicates
4082 children in the area.
III. Population and social structures
S. N.
Village name
Total population SC Population ST population Child (< 06)
The above table indicates that health care facilities are poorly exist in the study area to fulfil
the health need of the people. The health care facilities include both infrastructure and man
power. No hospital facilities are available within 10 km area. 1 primary health centres, 3
primary health sub centres, 2 family welfare centreare available in the study area. In term of
man power, there are 4 Registered Medical Practitioner (RMPs) and 9 community health
workers found in the study area. (Annexure IX).
c. Post and Telegraphs
There are total 10 post offices in the study area. Out of these 2 are in first zone, 8 in second
zone. There are 3 telephone facilities found in the study area. No banking services are
existing in any location in the study area. (Annexure IX).
d. Power supply
Most of the villages are having electricity facilities and the villagers are using power for
agricultural purposes. (Annexure IX).
e. Drinking water facility
Drinking water facilities are available in all the villages in the form of surface water ( tank) and
ground water (dug wells, and tube wells), however in the study area 15 villages are using
ground water for drinking purposes through hand pumps and dug wells. Apart from this, 19
villages are using tap water and tank for drinking purposes. (Annexure IX).
f. Communications facilities:
Road and rails are the means of communication founds in the area. In the study area 12
villages have paved road whereas 11 villages have mud roads. Out of total villages, 18
11 No. of Family Welfare Centre 01 01 02 12 No. of Child Welfare Centre 00 00 00 13 No. of Registered Private Medical Practitioners 01 03 04 14 No of Community health Workers. 02 07 09
Sr. No Type of Institution 0‐5 Km 6 – 10 Km 0 – 10 Km
1 Post office 02 08 10
2 Telephone office 00 03 03
Draft EIA Report for M/s. Jay Bharat Steel Corporation proposed to install integrated steel and power Plant at
Survey No 405/3,406,407 Village Dhamadka, Bhuj Bhachau Road, Ta- Anjar, Dist; Kutch, Gujarat.
Forest area is occupied in 1562.09‐ha, (4.04%) of the total study area.
b. Land under cultivation
Altogether 22875.42‐ha land (irrigated and un‐irrigated) is used for cultivation, which works
out to be about 59.21% of the land in the study area.
c. Cultivable waste
This category of land mainly consists of the land suitable for cultivation, which however has
not been brought under cultivation at any time. The area under this category works out to
be 8152.32‐ ha, i.e. 21.10% of study area. This category indicates the moderate use of
available land for cultivation purpose.
d. Land not available for cultivation
The areas not covered under any of the above categories of land use and land cover under
urban population forms this type. Total 11733.2‐ ha(30.37 %) area in the study region is
classified under this category.
Draft EIA Report for M/s. Jay Bharat Steel Corporation proposed to install integrated steel and power Plant at
Survey No 405/3,406,407 Village Dhamadka, Bhuj Bhachau Road, Ta- Anjar, Dist; Kutch, Gujarat.
Chapter 4 : PREDICTION AND ASSESSMENT OF IMPACTS
ANACON LABORATORIES PVT.LTD. NAGPUR, MAHARASHTRA
C4‐1
4.0 PREDICTION AND ASSESSMENT OF IMPACTS
Industrialization & environmental issues are the two sides of the Coin of development of
any developing country. All developmental activities give rise to environmental issues,Right
from inception, due to use of natural resources and during the operational stage due to use
of raw materials, minerals, fossil fuels as well as due to generation of the wastes (gaseous,
liquid or solids) such use of materials for development or for operation of any projects
results in depletion of resources whereas the wastes disposed into different environmental
media causes serious threat to environmental health by turning in unfavourable for living
being. The signs of stress on the scarce natural resources are evident from the deteriorating
air quality, soil degradation, polluted rivers, streams, reservoirs & ponds and in the general
status of environment in various regions. It is now well recognized that, for sustainable
development and optimal use of natural resources, environmental considerations are
required to be integrated well within the planning & designing stage and with
implementation of development project. The envisaged benefits from development projects
cannot be fully realized unless they are environmentally and socially sound and sustainable.
Environmental Impact Assessment (EIA) is one of the proven management tools for
incorporating environmental concerns in development process and also improved decision
making.
The project will be installed in Kutch district of Gujarat with average use of water and
minimal generation of waste. However, it is noticed that the raw materials & products as
well as manufacturing activities can have considerable impacts if proper planning &
implementation of pollution prevention and safety measures are not implemented. This is
mainly because the proposed unit is to be setup for manufacturing of proposed integrated
steel and Captive Power unit which requires many Arc furnaces, Slag and Coal Ash/fines.
Thus, such development requires a cautious assessment over an overall environmental
impact viz, land, water, air, noise, biological & socio‐economic environments. However, the
proposed site is on waste land with no human or village settlement in close vicinity, the
impacts is likely to be minor but need to be addressed properly through the EIA report
&EMP documentations. The proposed site, being in a well‐developed surrounding area, is
having adequate availability of land, water, fuel, physical infrastructure & transport
Draft EIA Report for M/s. Jay Bharat Steel Corporation proposed to install integrated steel and power Plant at
Survey No 405/3,406,407 Village Dhamadka, Bhuj Bhachau Road, Ta- Anjar, Dist; Kutch, Gujarat.
Chapter 4 : PREDICTION AND ASSESSMENT OF IMPACTS
ANACON LABORATORIES PVT.LTD. NAGPUR, MAHARASHTRA
C4‐2
network, which will prove to be ideal for the establishment of the proposed project. These
all facilities lead for major concern when there is cause of establishment of a wasteland as
mentioned. The environmental status of the area has been studied and monitored carefully
prior to inception of the task of impact prediction &evaluation based on the identification of
probable impacts. On the basis of the primary & secondary data generated/ collected,
surveys conducted by experts in and around the proposed site and result of the impact
identification, prediction & evaluation exercise as well as observations made thereon for
mitigation measures etc., the present environment impact assessment report has been
prepared. It covers studies related with the area in and around the proposed site within the
radius of 10kms. The basic environmental components which are likely to be affected are,
1. Land Environment
2. Air Environment
3. Water Environment
4. Noise Environment
5. Biological Environment
6. Socio‐Economic Environment
The earlier mentioned elements of the project construction & operation will have impacts
occurring on the above listed attributes in two phases viz. construction phase and
operational phase with having short term as well as long term impacts (Mainly due to the
land use changes) and later having short term impacts. The proposed project is seen to have
little short‐term impacts during construction phase on the above mentioned attributes.
These short term impacts will be localized with proper and adequate mitigation measures.
Operational phase will be focused with more on accidents and mishaps while operating
rather than some adverse effects for which proper proactive and reactive measures will be
taken. However, no long term impacts are foreseen as major concern of the environment of
the proposed project area. The minor effects will be eliminated/reduced with proper,
effective mitigation measures and EMP as well as naturally due to geographical position of
vicinity of coastal region.
Draft EIA Report for M/s. Jay Bharat Steel Corporation proposed to install integrated steel and power Plant at
Survey No 405/3,406,407 Village Dhamadka, Bhuj Bhachau Road, Ta- Anjar, Dist; Kutch, Gujarat.
Chapter 4 : PREDICTION AND ASSESSMENT OF IMPACTS
ANACON LABORATORIES PVT.LTD. NAGPUR, MAHARASHTRA
C4‐3
As mentioned, it is very essential to cautiously study the effects, causes and impacts which
shall be caused as result of the upbringing of the project. Hence, at the very inception of the
implementation of the project, EIA was conducted with aim of identifying impacts through
cause‐effect relation. After the task of identification, it is very important to predict &
evaluate the significance of impacts through proper models by following certain specific
scientific techniques. Simultaneously, proper mitigation measures were suggested to nullify
the adverse effects if noticed any during these tasks.
Management of M/s. Jay Bharat Steel Corporation is aware of its corporate & social
obligations towards the protection of environment around the working premises and the
area around the factory site. The Air pollution, Water pollution & solid waste facilities are
proposed with latest technology, which will be installed before commissioning of proposed
unit to take care of the environmental quality by preventing any kind of major pollution.
Impacts on various elements during both construction and operational phase accompanied
by suggestive and effective mitigation measures are described below.
4.1 STAGES OF IMPACTS IDENTIFICATION & PREDICTION
Initially the study was conducted for screening of scoping by EIA Team for further scheduling
of the EIA study. The screening & scoping was done by study of records, documents &
details provided by the proponent At the stage of the screening & scoping, Form‐1 of EIA
notification SO 1533 was filled along with the pre‐feasibility report. The Draft ToR proposed
in Form‐1 was considered for further actions of EIA study. The questionnaire for the
proposed project was dully filled for better outcome & determination of further line of
action for EIA study. Baseline study was initially started with reference to the Draft ToR.
Simultaneously the reporting of the study & review of work accomplished time to time. The
details & method of study for establishment of baseline environmental status is described in
earlier chapter.
Primary EIA by identification & prediction of impacts was conducted by following
assessment of baseline environmental quality with special reference to the project
activities/components and their potential stress on the environment. Further, ground reality
survey by site inspections, meetings with associated technical & administrative persons,
Draft EIA Report for M/s. Jay Bharat Steel Corporation proposed to install integrated steel and power Plant at
Survey No 405/3,406,407 Village Dhamadka, Bhuj Bhachau Road, Ta- Anjar, Dist; Kutch, Gujarat.
Chapter 4 : PREDICTION AND ASSESSMENT OF IMPACTS
ANACON LABORATORIES PVT.LTD. NAGPUR, MAHARASHTRA
C4‐4
technical data/document study as well as cross referencing with various subject references
was done for the purpose throughout the study period. All possible impacts/stresses are
identified for further study and citation of primary mitigation measures for each identified
impacts stresses. The Environmental Impact Assessment was conducted by following
checklist method using the Questionnaire, Analysis & interpretation of document/record &
Data by expert of EIA Team and Technical Experts of Proponent, Scientific& Technical
referencing for identification, prediction & interpretation of probable impacts.
Secondary EIA was conducted by the thorough study for preparation of description of
potential environmental impacts & mitigation measures as well as by following Matrix
Analysis for identified impacts. The matrix analysis was conducted only for operation phase
as no major considerable impacts were identified for construction phase. Further matrix was
formulated for two scenarios: with mitigation measures & without mitigation measures.
With the necessary details of components of EIA study & necessary document review, the
Draft EIA report was prepared and reviewed for necessary update for adequate and efficient
presentation of the proposed project activities, environmental impacts, mitigation
measures, safety & management plan etc. finally on receipt of Approved ToR from Expert
Appraisal Committee, New Delhi; completed studies for EIA was reviewed and verified
against the approved Terms of reference for EIA. All recommendations & requirement sited
by EAC, New Delhi carefully studied to finalize the EIA Report for submission to EAC along
with EC Application. A detailed report for the compliance of Approved ToR was prepared
and covered in the EIA report as Annexure‐1.
4.2 IDENTIFICATION OF IMPACTS
4.2.1 Environmental attributes & parameters
The main parameters of the study are as below;
I. Air Environment:
• Emission Sources & Quantity
• Emission Control Measures/Technology
• Environment, Health & Safety Management Strategies
Draft EIA Report for M/s. Jay Bharat Steel Corporation proposed to install integrated steel and power Plant at
Survey No 405/3,406,407 Village Dhamadka, Bhuj Bhachau Road, Ta- Anjar, Dist; Kutch, Gujarat.
Chapter 4 : PREDICTION AND ASSESSMENT OF IMPACTS
ANACON LABORATORIES PVT.LTD. NAGPUR, MAHARASHTRA
C4‐5
• Emission & Ambient Air Quality
II. Water Environment:
• Water consumption & wastewater generation
• Water & Wastewater management system & Technology
• Environment, Health & Safety Management Strategies
• Water & Wastewater Quality
III. Land Environment:
• Potential of land use & land cover change
• Potential of land contamination & control measures
• Soil Quality
IV. Ecology/Biological Environment:
• Biotic components (Flora & Fauna) of the area
• Change in habitat and vegetation
• Control measures & Ecological management strategies
• Environment, Health & Safety Management Strategies
V. Socio Economic Environment:
• Demographic Characteristics
• Amenities & Infrastructure
• Management Strategies & Planning for Social/ community Welfare
• Occupational/Community Health & Safety Management
VI. Noise Environment
• Ambient Noise Condition
• Major Sources of Noise from project
• Control Measures and Environment, Health & Safety Management Strategies
Draft EIA Report for M/s. Jay Bharat Steel Corporation proposed to install integrated steel and power Plant at
Survey No 405/3,406,407 Village Dhamadka, Bhuj Bhachau Road, Ta- Anjar, Dist; Kutch, Gujarat.
Chapter 4 : PREDICTION AND ASSESSMENT OF IMPACTS
ANACON LABORATORIES PVT.LTD. NAGPUR, MAHARASHTRA
C4‐6
4.2.2 Impacting activities & mitigations
It is very essential to study the project activities & component cautiously to identify the
sources, potential, extent & significance of impact as well as mitigation measures for the
impacts. Hence, in very inception of the EIA study, data of the project activities &
component as well as operation was done very precisely. This has revealed that, there
would not be any major impacts on environment due to the proposed project. However, the
minor impacts would arise with the operation of the proposed project. Major details of
handling, storage, Transportation of raw materials & finished products, production
processes, operation & use of utilities, use of water & overall management practices of
proposed project were collected and studied from the records made available by the
proponent.
With task of identification, considerations of generic techno‐scientific & operational
mitigation measures are also taken in to account of the impacts prediction & evaluation.
Right with the inception of tasks of identification & prediction of impacts, necessary &
feasible mitigation measures are also determined which may be helpful for planning &
designing of EMP as the later task.
The main activities of the project and associated environmental impacts as well as necessary
generic mitigation measures are depicted below as illustration in figure 4.1 & 4.2 whereas
the description regarding the anticipated impacts along with necessary details of
identification, prediction & significance as well as mitigation measures are presented in
subsequent sections under respective headings.
Draft EIA Report for M/s. Jay Bharat Steel Corporation proposed to install integrated steel and power Plant at
Survey No 405/3,406,407 Village Dhamadka, Bhuj Bhachau Road, Ta- Anjar, Dist; Kutch, Gujarat.
Chapter 4 : PREDICTION AND ASSESSMENT OF IMPACTS
ANACON LABORATORIES PVT.LTD. NAGPUR, MAHARASHTRA
C4‐7
ACTIVITIES CAUSING IMPACTS:
FIGURE 4.1 ACTIVIST CAUSE IMPACT
Activities of operation as source of impacts
Probable Environmental Impacts
Material Transportation,
Handling Storage
Air Pollution, Soil Contamination, Occupational Health issues related with
chemical Hazards
Production Processes
Water, Air & Soil Pollution, Noise Generation, Impacts on Ecology, Occupational Health Issues related with Chemical/
Hazards
Boiler & Utility Operation
Air Pollution, Noise Generation, Impacts on Ecology,
Occupational Health issues related with
Heat/Electrical/Mechanical Chemical Hazards.
Allied Activities (Maintenance, Domestic
Activities etc.)
Water & soil pollution due to sewage & waste generation,
occupational health
Construction activity
Air, Water & Soil pollution, impacts on Ecology, Occupational
Health issues
Draft EIA Report for M/s. Jay Bharat Steel Corporation proposed to install integrated steel and power Plant at
Survey No 405/3,406,407 Village Dhamadka, Bhuj Bhachau Road, Ta- Anjar, Dist; Kutch, Gujarat.
Chapter 4 : PREDICTION AND ASSESSMENT OF IMPACTS
ANACON LABORATORIES PVT.LTD. NAGPUR, MAHARASHTRA
C4‐8
MITIGATION OF PROBABLE IMPACTS
FIGURE 4.2 MITIGATION OF PROBABLE IMPACTS
Activities of operation as source of impacts
MITIGATION FOR PROBABLE ENVIRONMENTAL IMPACTS
Material Transportation, Handling, Storage
Properly designed Adequate Closed storage area, separate designated storage area for raw materials & products, implementation of occupational health
surveillance program, implementation of safe work procedures & safety Rules, Greenbelt Development around storage area.
Production processes
Water, Air & Soil Pollution prevention measures like ETP, Waste incinerator, solid/ Hazardous waste management system with storage area, Disposal of non‐toxic treated effluent, Resource conservation & Waste Minimization, implementation of occupational health surveillance program, Regular
Monitoring/Analysis of Environmental samples including waste & wastewater, implementation of suggestion for design of production technologies/facilities,
implementation of safe work procedure & safety rules, Greenbelt Development in & around plant premises.
Air Pollution control devices (Wherever required), acoustic enclosures for utility stack of Adequate Height & Diameter, Regular Monitoring of emissions as per Monitoring Plan/EMP, Implementation of Safe work procedures &
safety rules, Greenbelt Development in & around plant premises. Confirmation to design & operation criteria specified by CPCB for incinerator,
Pro Active & reactive maintenance of APCs
Incinerator & Utility operation
Allied Activities (Maintenance,
Domestic Activities etc)
Sewage Treatment & Disposal through in septic tank & soak pit system, proper Disposal of Garbage, Scarp & other waste as per CPCB Guidelines
implementation of safe work procedures & safety Rules, Occupational Health Surveillance program, Greenbelt Development in & around plant premises.
Adequate operation of waste management system/technology/equipment
etc.Regular Monitoring ofetc Efficiency including quality of effluent at various stages.Storage, management & Disposal of solid/hazardous waste as per CPCB Guidelines.Annual audit for Environmental Management Systems. Regular preparation & Maintenance of Records/Documents of waste management practices, Continuous improvement in Environmental Management System & Pollution control Technologies, Greenbelt
Development in & around plant premises, proactive & Reactive maintenance of pollution control/waste treatment facilities/technologies/equipment’s for efficient waste management. Emergency Provision for failure of pollution
Waste Management
Draft EIA Report for M/s. Jay Bharat Steel Corporation proposed to install integrated steel and power Plant at
Survey No 405/3,406,407 Village Dhamadka, Bhuj Bhachau Road, Ta- Anjar, Dist; Kutch, Gujarat.
Chapter 4 : PREDICTION AND ASSESSMENT OF IMPACTS
ANACON LABORATORIES PVT.LTD. NAGPUR, MAHARASHTRA
C4‐9
4.3 DESCRIPTION ANTICIPATED IMPACTS
Construction Phase:
Generally, during construction activity, excess soil and waste construction materials are
generated from various activities like site preparation & construction works. These two
sources together with the probability of contamination of land due to the construction
materials falling & mixing on surface soil of construction site will have considerable impacts.
However, in the present case of M/s. Jay Bharat Steel Corporation, these sources of impacts
would be minimal as the site is already prepared and moderate level of construction works
is required.Besides, the use of ready mix concrete and use of waste in internal road
development, PCC and other filling requirement will eliminate the potentials of land
environment. Moreover, minor dust deposition is expected during loading unloading activity
of raw material such as cement, which will be negligible & restricted within site situated
within a project area for short duration of construction activity. The site, being a plot in
uncultivated land and hence, land use change is also not envisaged. Thus, no major
considerable impacts on land are anticipated during construction phase. However, it is
recommended to implement the generic mitigations like use of construction waste with
proper planning, provision of proper storage area for construction materials, use of ready
mix concrete and use of excavated soils for construction works & landscaping.
Operation Phase:
It has been observed from the Techno‐scientific details of the proposed project that the
manufacturing process will generate some quantity of solid & liquid wastes. These wastes,
upon accidental mixing with soil or unmanaged disposal, may contaminate the land;
Moreover, leak & spill of the raw materials/products may also contaminate the land. This
issue of contamination may have considerable impacts on land due to toxicity of raw
materials & products if the area of spill/leak is not properly lined. These impacts can be
mitigated effectively by proper adequate design & provisions of storage, transportation and
handling facilities etc. considering this, it has been suggested that the floor area of the
storage, transportation and production unit shall be lined with impervious lining to prevent
seepage & percolation of the toxic materials in the soil. The drain from the areas shall not
be discharging on land but shall be diverted to ETP. Thus the impacts caused due to soil
Draft EIA Report for M/s. Jay Bharat Steel Corporation proposed to install integrated steel and power Plant at
Survey No 405/3,406,407 Village Dhamadka, Bhuj Bhachau Road, Ta- Anjar, Dist; Kutch, Gujarat.
Chapter 4 : PREDICTION AND ASSESSMENT OF IMPACTS
ANACON LABORATORIES PVT.LTD. NAGPUR, MAHARASHTRA
C4‐10
contamination would be prevented. However, it is suggested that the lining of the aforesaid
area shall be checked & maintained regularly to prevent soil contamination. Further, it is
also suggested to manage the solid & liquid wastes generated from the proposed project as
upon mixing with soil these wastes can create serious issue of land pollution and toxic
effects on local environmental factors. It has been noticed that the production activities will
have generation of highly contaminated wastewater rich in solids. Therefore, it is required
to provide adequate & efficient waste management facilities equipped with efficient
technology with residue collection facilities to avoid any kind of disposal & contamination of
land. Besides, Hazardous & solid wastes are also likely to be generated from various
activities and described in chapter 2. These wastes upon dumping on land can have
significant impacts on soil quality and hence it is suggested that hazardous & solid wastes
shall be managed by provision of proper storage & disposal facilities as per statutory
guidelines. The proponent has already planned for proper & efficient provisions for
handling, storage, treatment and/or transportation for final disposal for the solid &
hazardous waste generated from the proposed unit as per guidelines of MoEF/CPCB/GPCB.
A designated solid/hazardous wastes storage site shall be provided to comply with the
requirements cited by MoEF/CPCB.
Further, to make the project cleaner in term of solid/ hazardous waste generation, it is
suggested that the production processes shall be monitored for minimum generation of
solid & hazardous wastes and all solid & hazardous waste generated shall be assessed for
quantity & quality, whenever & wherever required, to plan for waste reduction action plan.
These all mitigations suggested above together will prevent land contamination due to
spill/leakage, solid/hazardous wastes as well as effluent disposals.
4.3.1 Air environment
Air environment shall get slightly affected due to various construction activities that shall
take place while the course of construction phase. The major source of adverse impacts to
the air is, generally, the activity of site preparation & construction/ civil works which will be
done using various mechanical equipment. In case of the proposed project, the activities of
site preparation are not required but some minor works of pilling & foundation work may
require little excavation. This minor excavation along with the construction works & allied
activities like material transportation, storage & handling may lead to generation of various
Draft EIA Report for M/s. Jay Bharat Steel Corporation proposed to install integrated steel and power Plant at
Survey No 405/3,406,407 Village Dhamadka, Bhuj Bhachau Road, Ta- Anjar, Dist; Kutch, Gujarat.
Chapter 4 : PREDICTION AND ASSESSMENT OF IMPACTS
ANACON LABORATORIES PVT.LTD. NAGPUR, MAHARASHTRA
C4‐11
dust particles which may become airborne due to wind and affect the ambient air quality.
However, effective measures like regular and periodic sprinkling of water in the dust
generation area shall take place in order to reduce the dust generation. Further, care shall
be taken to cover the construction material by providing an enclosed storage area in order
to avoid exposure of these materials with air which may lead to further deterioration of air
quality. The proponent shall ensure construction of proper concrete/asphalted roads within
the premise in order to avoid any unnecessary generation of duct during the course of
movement of vehicles. During civil work it is expected that fugitive emission will be
generated mainly due to use of cement. Apart from these another source of damage of the
impacts of exhaust, any construction equipment/machinery & vehicle shall be turned off
when not in use to avoid the emission of air pollutants in exhaust gas of
equipment’s/machineries & vehicles.
All the above impacts will be limited to the construction phase for very short period and will
be restricted with the site. Moreover the site is situated in the uncultivated land. Therefore,
no necessity is felt for the implementation of any specific mitigation measures in this aspect.
However, it is suggested that proponent shall implement all generic mitigation as cited
above as well as cited by concern person during the construction works. Proponent shall
also ensure proper mitigations of the impacts through implementation of safe work
procedures with necessary safety gears. Thus, it is clearly cited that construction phase shall
not cause any significant damage to the air quality as all the impacts are temporary limited
to the proposed site and shall be mitigated automatically without any major techno‐
scientific mitigation measures.
Operation Phase:
During operation phase major impacts are likely to occur due to emissions from utility,
process emission and fugitive emissions from storage, handling and transportation
materials. Besides, impacts on air environment are also likely to occur due to the hazards
occurred during any stage of project operation. As seen in the chemical inventory of
proposed project many chemicals are volatile in nature and some are flammable. Further, it
is suggested to provide suitable and adequate storage facilities for the materials to prevent
any sort of impacts due to fugitive emissions from storage. Transfer of material to process
area from storage shall be done with efficient handling and transfer facilities and
Draft EIA Report for M/s. Jay Bharat Steel Corporation proposed to install integrated steel and power Plant at
Survey No 405/3,406,407 Village Dhamadka, Bhuj Bhachau Road, Ta- Anjar, Dist; Kutch, Gujarat.
Chapter 4 : PREDICTION AND ASSESSMENT OF IMPACTS
ANACON LABORATORIES PVT.LTD. NAGPUR, MAHARASHTRA
C4‐12
equipment. Manual handling in open handling containers or equipment shall be restricted
during normal operation and for conveying the material modernization closed equipment
with suitable pipes and automation shall be provided.
The impact of emission from utility will not be major except the emission of particulates as
coal and lignite are proposed as fuel for main Boiler. Hence, emissions of toxic or harmful
gaseous pollutants like VOC, CO etc. are not envisaged to be considerable. However, the
emission of particulate may result in considerable impacts on air environment and to
control the emission effective control equipment like bag filter or Electro Static Precipitator
shall be installed well before commissioning of the utility. Further, with consideration of the
emission for DG set, it has been studied that emission from DG set during the failure of
power supply by GPCB, would be considerable. However, the issue of the impacts of
emission from DG set will be rare considering the rare failure of power supply in the
company. Again, the issue of emission of SOx is not envisaged to be major as HSD or HSD
will be used as fuel for DG set. Moreover these, and DG will also be installed for DG of
effluent from process, which will be operated using HSD as fuel. However, the emission of
these pollutants will be negligible as the emission from DG will be controlled with the
caustic scrubber. These three sources of emissions are further studied for determination of
incremental GLC level with the estimated Quantity & Quality of emissions considering the
control measures using mathematical simulation software –ISCST3 Tools. The details of the
modelling & outcomes are described below under respective heading.
4.3.1.1 Impact on air quality
Impact on ambient air due to M/s. Jay Bharat Steel Corporation during plant operations will
be due to operation of Boiler and DG Sets. The unit will utilize coal/ Lignite as fuel for the
Boiler, HSD for D. G. Sets. DG Sets would be kept stand‐by and will be used in case of power
failure only. The flue gas emission will be released through adequately designed stack of
45.0 m Height as per the statutory norms. In boiler, ESP will be installed as Air Pollution
Control Mechanism. The emissions will cause negligible impact on air quality.
Further, it is emphasized that the mitigation measures discussed in table 4.2 of this chapter
and elaborated in the Environmental Management Plan given in Chapter 5; should be
followed to maintain ambient air quality within norms. The detailed air modelling for
Draft EIA Report for M/s. Jay Bharat Steel Corporation proposed to install integrated steel and power Plant at
Survey No 405/3,406,407 Village Dhamadka, Bhuj Bhachau Road, Ta- Anjar, Dist; Kutch, Gujarat.
Chapter 4 : PREDICTION AND ASSESSMENT OF IMPACTS
ANACON LABORATORIES PVT.LTD. NAGPUR, MAHARASHTRA
C4‐13
calculation of Ground Level Concentration of various pollutants has been carried out using
ISCST3 Model.
4.3.1.2 Ambient air Modelling
Air quality impact assessment is an important study; Mathematical modelling is established
to find the impact on environment due Pile stacking of material has been assessed with the
help of modelling following the Central Pollution Control Board’s Guidelines. The
mathematical model used for conducting the study is the latest version of Industrial Source
Complex. Model (ISCST‐3, 1996), which is entirely in line with the requirements of Central
Pollution Control Board, New Delhi.
4.3.1.3 Project Location
The project site is located atSurvey No. 405/3, 406, 407, Vill: Dhamadka, Bhuj – Bhachau
Road, Ta: Anjar, Dist: Kutch, Gujarat.
Project site GPS Coordinate Elevation above MSL Longitude :
: 70⁰ 11' 29.34" E 56 m (above MSL)
Latitude 23⁰ 18‘’53.54" N
4.3.1.4 Details of Air Dispersion Model
The air quality impact of a source or group of sources is evaluated by the use of
mathematical models. The widely accepted interpretation models simulate the relationships
between air pollutant emissions and its impact on air quality. For the present study, this
model is used for the prediction of maximum ground level concentration (GLC).
Assessment of air pollution is carried out for stack attached to Boiler, DG Set vent. The
ISCST‐3 (industrial Source complex –Short term ‐3) from lakes and Environment is an hour‐
by‐hour steady state Gaussian Plume Model. This model is widely recognized as predictive
tool in impact assessment for air environment. The ISCST‐3 model has been applied with
elevated + flat terrain, gradual plume rise and buoyancy induced dispersion options in the
present study.
The inputs to the model include data relating to emissions, which are determined by
formulating impact scenarios. The meteorology and atmospheric details like ambient
temperature, wind speed, wind direction and stability class were obtained from IMD
Draft EIA Report for M/s. Jay Bharat Steel Corporation proposed to install integrated steel and power Plant at
Survey No 405/3,406,407 Village Dhamadka, Bhuj Bhachau Road, Ta- Anjar, Dist; Kutch, Gujarat.
Chapter 4 : PREDICTION AND ASSESSMENT OF IMPACTS
ANACON LABORATORIES PVT.LTD. NAGPUR, MAHARASHTRA
C4‐14
department at New Kandla Station for the Period of December 2012 to February 2013.
Mmixing height considers on “Spatial Distribution of Hourly Mixing Depth over Indian
Region”, PROBES/88/2002‐03 CPCB publication.
4.3.1.5 Input Parameters
The site specific and monitored details considered for input data for the software “ISCST3”
by Lakes Environmental for prediction of impact on air environment are given in the below
The emission standards for Indian vehicles as proposed by the Indian Institute of Petroleum
(IIP) have been used to provide the emission factors for the different vehicle types. Emission
factors after accounting for the vehicle speeds are as specified in Table‐4.7
TABLE 4.7 EMISSION FACTORS
All values are in gm/km/vehicle*
Trucks/Buses Cars LCV’s Two & Three Wheelers CO NOx CO NOx CO NOx CO NOx 10.67 18.97 2.72 0.970 2.72 0.970 4.0 1.5
Note: To be multiplied by 1.6 for converting into gm/mile for use in CALINE4.
Draft EIA Report for M/s. Jay Bharat Steel Corporation proposed to install integrated steel and power Plant at
Survey No 405/3,406,407 Village Dhamadka, Bhuj Bhachau Road, Ta- Anjar, Dist; Kutch, Gujarat.
Chapter 4 : PREDICTION AND ASSESSMENT OF IMPACTS
ANACON LABORATORIES PVT.LTD. NAGPUR, MAHARASHTRA
C4‐30
4.3.3.9 Meteorological Data
Air quality scenarios were developed for worst case stability classes using the wind speeds.
The meteorological data considered for the modeling studies is given below in Table‐4.8.
TABLE 4.8 METEOROLOGICAL DATA CONSIDERED FOR MODELING
Stability Class
Wind Speed (m/sec)
Condition
A 1.0 Very un stable‐ sunny, light windB 2.0 Unstable‐ as with A only less sunny or more windy C 3.0 Moderately unstable‐ very windy/ sunny or overcast/ light wind D 5.0 Neutral‐ little sun and high wind or overcast/windy night E 2.0 Moderately stable‐ less overcast and less windy night than day F 2.0 Stable‐ night with moderate cloud and light/ moderate wind
4.3.3.10Details of National Highway
For model computations Right of Way (ROW) of 20 m has been considered for perusal of
violations of standards and accordingly receptor locations have been chosen to account for
its location with respect to edge of ROW.
4.3.3.11 Results and Discussions for Traffic Impact
The estimated concentrations of CO and NOx for the proposed additional traffic are
presented in Table‐4.9.
TABLE 4.9 PEAK HOURLY PREDICTION RESULTS
Distance from the edge of the Road (m)
Incremental Concentrations for CO (µg/m
3)
Incremental Concentrations for NOx (µg/m
3)
20 0.031 0.055
Draft EIA Report for M/s. Jay Bharat Steel Corporation proposed to install integrated steel and power Plant at
Survey No 405/3,406,407 Village Dhamadka, Bhuj Bhachau Road, Ta- Anjar, Dist; Kutch, Gujarat.
Chapter 4 : PREDICTION AND ASSESSMENT OF IMPACTS
ANACON LABORATORIES PVT.LTD. NAGPUR, MAHARASHTRA
C4‐31
FIGURE 4.9 CONNECTING ROAD BETWEEN PROJECT SITE AND NH‐8A
4.3.3.12 Incremental Level result
Adequacy of existing road network in study area
National Highway 8 (NH 8) is a National Highway in India that connects the Indian capital
city of New Delhi with the Indian financial capital city of Mumbai. As per estimated it is
supposed to be the busiest highway in the subcontinent, as it connects the national capital
to financial capital along with economic giants like Ahmadabad, Vadodara and Surat in
between. The highway passes through the State capitals of Ahmedabad and Jaipur, as well
as important cities like Gurgaon, Ajmer, Udaipur, Ahmadabad, Surat and Vadodara. The
total Length is 1,375 km (854 mi). NH8 stretch on Delhi‐Gurgaon border is India's deadliest
road.
This highway is part of the Golden Quadrilateral project undertaken by National Highways
Authority of India and was the first part to be completed. The Delhi‐Gurgaon
Expressway and NE 1 are the part of NH 8. Before entering downtown Mumbai, NH 8 passes
through nearly all suburbs on the Western line of Mumbai Suburban Railway, where it is
popularly known as Western Express Highway
Draft EIA Report for M/s. Jay Bharat Steel Corporation proposed to install integrated steel and power Plant at
Survey No 405/3,406,407 Village Dhamadka, Bhuj Bhachau Road, Ta- Anjar, Dist; Kutch, Gujarat.
Chapter 4 : PREDICTION AND ASSESSMENT OF IMPACTS
ANACON LABORATORIES PVT.LTD. NAGPUR, MAHARASHTRA
C4‐32
FIGURE 4.10 ROUTE MAP OF NH‐8A
With present level of traffic and the predicted increase in existing traffic due to the project,
adequacy of road/highway during operational phase of the plant has been estimated by
comparison with the recommendations stipulated by Indian Road Congress (IRC). The IRC
recommendations on traffic capacity are presented in Table‐4.10.
TABLE 4.10 RECOMMENDATIONS ON TRAFFIC CAPACITY ‐ IRC
Sr. No.
Category of Road Maximum Carrying Capacity (PCU/day)
1 Two lane roads (7‐m) with earthen shoulders (width of 7.5m) 15,000 2 4‐lane highway with earthen shoulders (width of 14.5m) 35,000
As per the above given IRC standards, the 4 lane NH‐8A road network can have a maximum
capacity of 35,000 PCU per day.
The estimated peak traffic in terms of PCUs is compared with the stipulated standards by IRC
for traffic capacity of the National Highway passing near the site and it can be observed that
the road will be well adequate for the increased traffic. ,
Draft EIA Report for M/s. Jay Bharat Steel Corporation proposed to install integrated steel and power Plant at
Survey No 405/3,406,407 Village Dhamadka, Bhuj Bhachau Road, Ta- Anjar, Dist; Kutch, Gujarat.
Chapter 4 : PREDICTION AND ASSESSMENT OF IMPACTS
ANACON LABORATORIES PVT.LTD. NAGPUR, MAHARASHTRA
C4‐33
4.3.3.13Impact due to Generation of Solid Waste
Details of Solid waste generation:
• Quantity of Hazardous and Solid wastes generation & disposal by various methods has
been shown in Table. 4.11
• The Solid / hazardous waste will be stored at separated Hazardous Waste Storage Area
7.1 OCCUPATIONAL AND SAFETY HAZARDS AND PREVENTIVE MEASURES
Sr. No
Type of hazard
Sources Risk Mitigation measures
1 Noise Blower, ID Fan, Compressors, D.G Set, EAF melting process, fuel burners, scrap and product handling, rotating equipment, furnace charging, rolling mill.
Hearing impairment interference in communication fatigue.
Audiometric examination Noise monitoring PPE must be provided like ear plug, muff isolation, substitution and engineering control installation of acoustical booth rotation of workers and minimize the time enclose fans, insulate ventilation pipes, cover and enclose scarp and storage and handling area adopting slag practice in EAF.
2 Vibration Manufacturing process
Whole body vibration hand transmitted vibration
High risk tools/ Machinery must be eliminated or provided with anti‐vibration handle or vibration isolation.
3 Heat Stress
Process of rolling, furnace (Molten metal and hot surfaces), EAF
High temperature Humidity
Clothing against the hazardous substance rotation of job or worker cold drinking water, salt to worker safety distance of 4 mtr from the delivery spout are suggest to work near molten metal.
4 Radiation Scarp, testing of equipment
Fatal disease Scarp must be free from contamination. Face mask/shield should be provided.
5 Inhalation agent (Gas, vapour, dust, fumes)
Metallic duct, EAF, raw material storage, melting process.
Damage pulmonary
Good ventilation system must be provided. Isolation of process, substitution of raw material workplace monitoring should be carried out provide separated eating facilities and washing before eating provide sealed cabin with filtered air conditioning use of filter respirators when exposed to heavy dust co analyses and detective equipment should be instated to alert control rooms and local personnel.
6 Confined space
Fuel tank bunker Fatalities PPE should be provided follow the work permit system.
7 Electrical EAF, equipment Burn Proper earthling must be carried out. 8 Explosion Molten metal, Coal
handling, yard Burn, injury, Death
Complete dryness of material prior to contact with liquid iron and steel separation of flammable gas and combustible material coal storage time should be minimized, coal piles should not be located above the heat source, storage structure made of non‐combustible material provide equipment grounding for minimization of static electricity hazard. All the motor must be spark proof.
Draft EIA Report for M/s. Jay Bharat Steel Corporation proposed to install integrated steel and power Plant at
Survey No 405/3,406,407 Village Dhamadka, Bhuj Bhachau Road, Ta- Anjar, Dist; Kutch, Gujarat.
All relevant parameters (Permeability & Porosity, Moisture pH, EC, Loss on ignition, Phosphorus, Total Nitrogen, Caution Exchange Capacity, Particle Size distribution, Heavy metal, Ansonia, Fluoride
TABLE 9.4 DETAILS OF DUTIES AT EACH STAGE OF THE EHS CELL
Sr. No. Designation Duties Assigned 1 Managing Director Environmental policy & decision making. 2 General Manager Maintaining optimum performance of the production plant,
inspection & regulation of the safety measures. 3 EHS
Manager/executive To have a strong understanding of EMS and ISO standards pertaining to safety and environment Manage, maintain and submit all regulatory compliance documents. Assist plant manager and department heads. To ensure compliance in Occupational Safety and Environmental regulations. To carryout safety trainings.
4 Sr. Technician Maintaining good & uninterrupted functioning of pollution control system, pumps and safety systems & record keeping
5 Operators Regular operations of pollution control systems & record keeping
6 Fire & Safety supervisor
To ensure proper functioning and operation of safety equipment’s, control system as well as implementation of safety within the plant and maintain records of the same
7 Firemen To act as emergency team member during fire Source: JayBharatSteel Corporation.
General prevention and maintenance of pollution control system will be done by the
maintenance department to achieve optimum efficiency of the control equipment and to
maintain the quality of the environment.
9.11 BUDGETARY PROVISIONS FOR ENVIRONMENTAL PROTECTION
TABLE 9.5 BUDGETARY PROVISIONS FOR ENVIRONMENTAL PROTECTION
TABLE 9.6 BUDGETARY PROVISIONS FOR SOCIAL UPLIFTMENT/YEAR
Sr. No.
Activity Yearly Estimated budgetary
provision(Rs) 1 Arranging free Medical checkup for the people of surrounding area 100000
2 Provision of required instruments in schools 150000 3 Sponsoring sports/religious activities in the study area. 250000 4 Provision of street light 100000 5 Donations to locally arranged programs 125000
6 Tree plantation and management in the surrounding villages 175000 7 Construction/Maintenance of pucca road in the village 100000
Total 1000000
The table above indicates that total Rs. 10 Lac has been allotted annually for community
Upliftment activities. The head wise segregation of the budget shows that the financial
allocation made under seven head including provision of free medical camp, provision of
instrument in schools, sponsoring sports activities, electrification of villages, contributing in
local initiatives, tree plantation, enhancing the existing communication facilities.
A. Institutional Arrangement:
Institutional arrangements have an important bearing on the successful implementation of
projects. There will be multidimensional approach to corporate social responsibilities (CSR)
initiatives ensuring the partnership with the Local administrator, professionals and NGOs,
community leaders and members.
Jay Bharat Steel Corporation will designed its CSR activities based on the suggestion on the
report and proper budget reallocation should be made for each sectors for proper
implementation of the project. The overall implementation of the program will be monitor
carefully with space for revisiting and redesign of its project activities. Emphasis will be
given in developing and establishing network with the local authority in local administration,
health, education etc. and design its program with the partnership of the local authority in
order to avoid the replication of intervention and proper impact.
NGOs in the area will be identified and entrusted the responsibilities of identification of
members, group formation and training so that livelihood initiatives could be strengthen
and run smoothly. Community leaders and the members of the community will be involve in
the process effectively so that they will develop ownership over the program rather than
considering themselves as beneficiaries of the program.
Draft EIA Report for M/s. Jay Bharat Steel Corporation proposed to install integrated steel and power Plant at
Survey No 405/3,406,407 Village Dhamadka, Bhuj Bhachau Road, Ta- Anjar, Dist; Kutch, Gujarat.
with the inception, project may lead to slight growth in the social status & improvement
of the quality of life in the surrounding area.
H Considering the size of the project, the existing manpower requirement during
construction and commissioning will be 250 to 300 contractual persons. It is advised to
give priority to the local people. It may increase the growth and improvement life of
local people in the surrounding area.
Draft EIA Report for M/s. Jay Bharat Steel Corporation proposed to install integrated steel and power Plant at Survey No 405/3,406,407 Village Dhamadka, Bhuj Bhachau Road, Ta- Anjar, Dist; Kutch, Gujarat. ANNEXURE I: TOR COPY
Draft EIA Report for M/s. Jay Bharat Steel Corporation proposed to install integrated steel and power Plant at Survey No 405/3,406,407 Village Dhamadka, Bhuj Bhachau Road, Ta- Anjar, Dist; Kutch, Gujarat. ANNEXURE I: TOR COPY
Draft EIA Report for M/s. Jay Bharat Steel Corporation proposed to install integrated steel and power Plant at Survey No 405/3,406,407 Village Dhamadka, Bhuj Bhachau Road, Ta- Anjar, Dist; Kutch, Gujarat. ANNEXURE I: TOR COPY
Draft EIA Report for M/s. Jay Bharat Steel Corporation proposed to install integrated steel and power Plant at Survey No 405/3,406,407 Village Dhamadka, Bhuj Bhachau Road, Ta- Anjar, Dist; Kutch, Gujarat. ANNEXURE I: TOR COPY
Draft EIA Report for M/s. Jay Bharat Steel Corporation proposed to install integrated steel and power Plant at Survey No 405/3,406,407 Village Dhamadka, Bhuj Bhachau Road, Ta- Anjar, Dist; Kutch, Gujarat. ANNEXURE I: TOR COPY
Draft EIA Report for M/s. Jay Bharat Steel Corporation proposed to install integrated steel and power Plant at Survey No 405/3,406,407 Village Dhamadka, Bhuj Bhachau Road, Ta- Anjar, Dist; Kutch, Gujarat. ANNEXURE I: TOR COPY
Draft EIA Report for M/s. Jay Bharat Steel Corporation proposed to install integrated steel and power Plant at Survey No 405/3,406,407 Village Dhamadka, Bhuj Bhachau Road, Ta- Anjar, Dist; Kutch, Gujarat. ANNEXURE IV: AMBIENT AIR QUALITY RESULTS
Draft EIA Report for M/s. Jay Bharat Steel Corporation proposed to install integrated steel and power Plant at Survey No 405/3,406,407 Village Dhamadka, Bhuj Bhachau Road, Ta- Anjar, Dist; Kutch, Gujarat. ANNEXURE IV: AMBIENT AIR QUALITY RESULTS
Draft EIA Report for M/s. Jay Bharat Steel Corporation proposed to install integrated steel and power Plant at Survey No 405/3,406,407 Village Dhamadka, Bhuj Bhachau Road, Ta- Anjar, Dist; Kutch, Gujarat. ANNEXURE IV: AMBIENT AIR QUALITY RESULTS
Draft EIA Report for M/s. Jay Bharat Steel Corporation proposed to install integrated steel and power Plant at Survey No 405/3,406,407 Village Dhamadka, Bhuj Bhachau Road, Ta- Anjar, Dist; Kutch, Gujarat. ANNEXURE IV: AMBIENT AIR QUALITY RESULTS
Draft EIA Report for M/s. Jay Bharat Steel Corporation proposed to install integrated steel and power Plant at Survey No 405/3,406,407 Village Dhamadka, Bhuj Bhachau Road, Ta- Anjar, Dist; Kutch, Gujarat. ANNEXURE IV: AMBIENT AIR QUALITY RESULTS
Draft EIA Report for M/s. Jay Bharat Steel Corporation proposed to install integrated steel and power Plant at Survey No 405/3,406,407 Village Dhamadka, Bhuj Bhachau Road, Ta- Anjar, Dist; Kutch, Gujarat. ANNEXURE IV: AMBIENT AIR QUALITY RESULTS
Draft EIA Report for M/s. Jay Bharat Steel Corporation proposed to install integrated steel and power Plant at Survey No 405/3,406,407 Village Dhamadka, Bhuj Bhachau Road, Ta- Anjar, Dist; Kutch, Gujarat. ANNEXURE IV: AMBIENT AIR QUALITY RESULTS
Draft EIA Report for M/s. Jay Bharat Steel Corporation proposed to install integrated steel and power Plant at Survey No 405/3,406,407 Village Dhamadka, Bhuj Bhachau Road, Ta- Anjar, Dist; Kutch, Gujarat. ANNEXURE IV: AMBIENT AIR QUALITY RESULTS
Draft EIA Report for M/s. Jay Bharat Steel Corporation proposed to install integrated steel and power Plant at Survey No 405/3,406,407 Village Dhamadka, Bhuj Bhachau Road, Ta- Anjar, Dist; Kutch, Gujarat. ANNEXURE IV: AMBIENT AIR QUALITY RESULTS
Draft EIA Report for M/s. Jay Bharat Steel Corporation proposed to install integrated steel and power Plant at Survey No 405/3,406,407 Village Dhamadka, Bhuj Bhachau Road, Ta- Anjar, Dist; Kutch, Gujarat. ANNEXURE VI- NOC COPY FOR EXISTING PRODUCT
Draft EIA Report for M/s. Jay Bharat Steel Corporation proposed to install integrated steel and power Plant at Survey No 405/3,406,407 Village Dhamadka, Bhuj Bhachau Road, Ta- Anjar, Dist; Kutch, Gujarat. ANNEXURE VI- NOC COPY FOR EXISTING PRODUCT
Draft EIA Report for M/s. Jay Bharat Steel Corporation proposed to install integrated steel and power Plant at Survey No 405/3,406,407 Village Dhamadka, Bhuj Bhachau Road, Ta- Anjar, Dist; Kutch, Gujarat. ANNEXURE VI- NOC COPY FOR EXISTING PRODUCT
Draft EIA Report for M/s. Jay Bharat Steel Corporation proposed to install integrated steel and power Plant at Survey No 405/3,406,407 Village Dhamadka, Bhuj Bhachau Road, Ta- Anjar, Dist; Kutch, Gujarat. ANNEXURE VI- NOC COPY FOR EXISTING PRODUCT
Draft EIA Report for M/s. Jay Bharat Steel Corporation proposed to install integrated steel and power Plant at Survey No 405/3,406,407 Village Dhamadka, Bhuj Bhachau Road, Ta- Anjar, Dist; Kutch, Gujarat. ANNEXURE VII : ENV. STANDARD
Draft EIA Report for M/s. Jay Bharat Steel Corporation proposed to install integrated steel and power Plant at Survey No 405/3,406,407 Village Dhamadka, Bhuj Bhachau Road, Ta- Anjar, Dist; Kutch, Gujarat. ANNEXURE VII : ENV. STANDARD
Draft EIA Report for M/s. Jay Bharat Steel Corporation proposed to install integrated steel and power Plant at Survey No 405/3,406,407 Village Dhamadka, Bhuj Bhachau Road, Ta- Anjar, Dist; Kutch, Gujarat. ANNEXURE VII : ENV. STANDARD
Draft EIA Report for M/s. Jay Bharat Steel Corporation proposed to install integrated steel and power Plant at Survey No 405/3,406,407 Village Dhamadka, Bhuj Bhachau Road, Ta- Anjar, Dist; Kutch, Gujarat. ANNEXURE VII : ENV. STANDARD
Draft EIA Report for M/s. Jay Bharat Steel Corporation proposed to install integrated steel and power Plant at Survey No 405/3,406,407 Village Dhamadka, Bhuj Bhachau Road, Ta- Anjar, Dist; Kutch, Gujarat. ANNEXURE VII : ENV. STANDARD
Draft EIA Report for M/s. Jay Bharat Steel Corporation proposed to install integrated steel and power Plant at Survey No 405/3,406,407 Village Dhamadka, Bhuj Bhachau Road, Ta- Anjar, Dist; Kutch, Gujarat. ANNEXURE VII : ENV. STANDARD
Draft EIA Report for M/s. Jay Bharat Steel Corporation proposed to install integrated steel and power Plant at Survey No 405/3,406,407 Village Dhamadka, Bhuj Bhachau Road, Ta- Anjar, Dist; Kutch, Gujarat. ANNEXURE VII : ENV. STANDARD
Draft EIA Report for M/s. Jay Bharat Steel Corporation proposed to install integrated steel and power Plant at Survey No 405/3,406,407 Village Dhamadka, Bhuj Bhachau Road, Ta- Anjar, Dist; Kutch, Gujarat. ANNEXURE VII : ENV. STANDARD
Draft EIA Report for M/s. Jay Bharat Steel Corporation proposed to install integrated steel and power Plant at Survey No 405/3,406,407 Village Dhamadka, Bhuj Bhachau Road, Ta- Anjar, Dist; Kutch, Gujarat. ANNEXURE VIII :EXISTING PLANT PHOTOGRAPHS,PLANT LAYOUT AND GPS COORDINATE OF SITE SPECIFIC
Draft EIA Report for M/s. Jay Bharat Steel Corporation proposed to install integrated steel and power Plant at Survey No 405/3,406,407 Village Dhamadka, Bhuj Bhachau Road, Ta- Anjar, Dist; Kutch, Gujarat. ANNEXURE VIII :EXISTING PLANT PHOTOGRAPHS,PLANT LAYOUT AND GPS COORDINATE OF SITE SPECIFIC
Draft EIA Report for M/s. Jay Bharat Steel Corporation proposed to install integrated steel and power Plant at Survey No 405/3,406,407 Village Dhamadka, Bhuj Bhachau Road, Ta- Anjar, Dist; Kutch, Gujarat. ANNEXURE IX : SOCIO-ECONOMIC DETAILS
Draft EIA Report for M/s. Jay Bharat Steel Corporation proposed to install integrated steel and power Plant at Survey No 405/3,406,407 Village Dhamadka, Bhuj Bhachau Road, Ta- Anjar, Dist; Kutch, Gujarat. ANNEXURE IX : SOCIO-ECONOMIC DETAILS
Draft EIA Report for M/s. Jay Bharat Steel Corporation proposed to install integrated steel and power Plant at Survey No 405/3,406,407 Village Dhamadka, Bhuj Bhachau Road, Ta- Anjar, Dist; Kutch, Gujarat. ANNEXURE IX : SOCIO-ECONOMIC DETAILS
Draft EIA Report for M/s. Jay Bharat Steel Corporation proposed to install integrated steel and power Plant at Survey No 405/3,406,407 Village Dhamadka, Bhuj Bhachau Road, Ta- Anjar, Dist; Kutch, Gujarat. ANNEXURE IX : SOCIO-ECONOMIC DETAILS
Raiyada ‐ ‐ ‐ ‐ ‐ ‐ Sub total 30132.03 1292.09 734.7 16368.65 7438.57 9987.08
Grand total 38633.97 1562.09 860.26 22015.16 8152.32 11733.2
Draft EIA Report for M/s. Jay Bharat Steel Corporation proposed to install integrated steel and power Plant at Survey No 405/3,406,407 Village Dhamadka, Bhuj Bhachau Road, Ta- Anjar, Dist; Kutch, Gujarat.
‐To meet the parameters PLD (%leaking colours),PLL(%leaking lids),PLO(%leaking off take), of the notified standard sunder EPA within three years by December 2005). Industry will submit time bound action plan and PER Charta long with the Bank Guarantee for the implementation or the time. ‐Torebuildatleast40%ofthecokeovenbatteriesinnext10years ( by December2012.).
Not Applicable
1 Steel Melting Shop
Fugitive missions Toreduce30%byMarch2004and100%by March2008( including insta l lat ion of secondary de‐dusting facilities).
Considered 100% reduction in design itself
2 Blast Furnace
* Direct injectofreducingagents‐‐‐‐‐‐‐‐‐‐ byJune2013.
Not Applicable
3 Solid Waste/Hazardous Waste Management
Utilization of Steel/Melting shop(SMS)/Blast Furnace(BF) Slag as per the following schedule: * By2004‐ 70%
* By2006–80%and
* By2007–100%.
Hazardous Wastes
‐ Charge of tar sludge/ETPsludgetoCokeOvenbyJune2003. ‐ Inventorization of the Hazardous waste as per
Hazardous Waste(M& H), Rules,
1989as amended in
2000 and implementationoftheRulesbyDec.2003. (tarsludge, acidsludge, waste Lubricating goil and type fuel fall sin the categoryofHazardouswaste).
Complied for Melting shop
Complied for ETP sludge
Draft EIA Report for M/s. Jay Bharat Steel Corporation proposed to install integrated steel and power Plant at Survey No 405/3,406,407 Village Dhamadka, Bhuj Bhachau Road, Ta- Anjar, Dist; Kutch, Gujarat.
8 Theindustrywillinitiatethestepsto adoptthefollowingcleantechnologies measures to improve the performance of industrytowardsproduction,energy landenvironment. ‐ EnergyrecoveryoftopBlastFurnace(BF)gas.
letheyreturnback totheminesand its implementation.
‐ Processing of the waste containing flux &ferrous wastesthrough wasterecyclingplant.
‐ Toimplementrainwaterharvesting
Will be complied
Draft EIA Report for M/s. Jay Bharat Steel Corporation proposed to install integrated steel and power Plant at Survey No 405/3,406,407 Village Dhamadka, Bhuj Bhachau Road, Ta- Anjar, Dist; Kutch, Gujarat.
Draft EIA Report for M/s. Jay Bharat Steel Corporation proposed to install integrated steel and power Plant at Survey No 405/3,406,407 Village Dhamadka, Bhuj Bhachau Road, Ta- Anjar, Dist; Kutch, Gujarat.
11 PowerPlantsshouldprovidedryflyashfreeofcosttotheusers Will be noted 12 State P.W.Ds/ construction &development agencies shall
alsoadhere tothespecifications/Schedulesof CPWD for ash basedproducts utilization MoEF will take up the
Will be noted
Draft EIA Report for M/s. Jay Bharat Steel Corporation proposed to install integrated steel and power Plant at Survey No 405/3,406,407 Village Dhamadka, Bhuj Bhachau Road, Ta- Anjar, Dist; Kutch, Gujarat.
Draft EIA Report for M/s. Jay Bharat Steel Corporation proposed to install integrated steel and power Plant at Survey No 405/3,406,407 Village Dhamadka, Bhuj Bhachau Road, Ta- Anjar, Dist; Kutch, Gujarat.
Draft EIA Report for M/s. Jay Bharat Steel Corporation proposed to install integrated steel and power Plant at Survey No 405/3,406,407 Village Dhamadka, Bhuj Bhachau Road, Ta- Anjar, Dist; Kutch, Gujarat.
Draft EIA Report for M/s. Jay Bharat Steel Corporation proposed to install integrated steel and power Plant at Survey No 405/3,406,407 Village Dhamadka, Bhuj Bhachau Road, Ta- Anjar, Dist; Kutch, Gujarat.
Draft EIA Report for M/s. Jay Bharat Steel Corporation proposed to install integrated steel and power Plant at Survey No 405/3,406,407 Village Dhamadka, Bhuj Bhachau Road, Ta- Anjar, Dist; Kutch, Gujarat.
Draft EIA Report for M/s. Jay Bharat Steel Corporation proposed to install integrated steel and power Plant at Survey No 405/3,406,407 Village Dhamadka, Bhuj Bhachau Road, Ta- Anjar, Dist; Kutch, Gujarat.
Draft EIA Report for M/s. Jay Bharat Steel Corporation proposed to install integrated steel and power Plant at Survey No 405/3,406,407 Village Dhamadka, Bhuj Bhachau Road, Ta- Anjar, Dist; Kutch, Gujarat. ANNEXURE XII : NOC COMPLIANCE
Draft EIA Report for M/s. Jay Bharat Steel Corporation proposed to install integrated steel and power Plant at Survey No 405/3,406,407 Village Dhamadka, Bhuj Bhachau Road, Ta- Anjar, Dist; Kutch, Gujarat. ANNEXURE XII : NOC COMPLIANCE
Draft EIA Report for M/s. Jay Bharat Steel Corporation proposed to install integrated steel and power Plant at Survey No 405/3,406,407 Village Dhamadka, Bhuj Bhachau Road, Ta- Anjar, Dist; Kutch, Gujarat. ANNEXURE XII : NOC COMPLIANCE
CTE.43157 as per letter no : PC/CCA-KUTCH-936/GPCB ID
32727/91906 dated 17.09.2011 valid up to 02/07/2016
Sr. No DESCRIPTION STATUS 1. NOC for settling up of an industrial plant /ativites at Plot No: 107/P,
Bhuj-Bhachau High way, Village : Dhamadka, Taluka : Anjar , Dist kutch-370110 valid up to 02/07/2016
2. The list of the proposal products to be manufacture is as below.No NAME OF PRODUCTS Quantity MT/Month1 STEEL INGOTS &
BILLETS 2298 MT/MONTH
SUBJECT TO THE FOLLOWING CONDITIONS: 1. You shall obtain N.A permission from competent authority before commencing your project activities. 2. You shall strictly comply with the condition mentioned in your undertaking submitted to this office dated 24/05/2011 that you shall not never cross the aforesaid production capacity I,e.2,298 MT/MONTH. 3. You shall not carry out any activities which attracts the applicability of EC notification issue on 14th September 2006 and amended thereof. 4. Unloading of raw material by trucks or wagon shall be carried out with proper care to avoid dropping of the material from the height. 5. No ground water shall be used for the project coming under dark zone without permission of competent authority.
Will be Complied
3. CONDITIONS UNDER THE WATER ACT: 3.1 The quantity of the industrial effluent from the manufacturing process and
other ancillary industrial operation shall be NIL and the generated wastewater quantity shall be utilized belt development de-dusting and sprinkling activity.
Will be Complied
3.2 The quantity of domestic wastewater(sewage) shall not exceed 7.50 KL/day Will be Complied3.3 Sewage shall be disposed of through septic tank/soak pit system. 3.4 The unit shall provide metering facility at the inlet and outlet of ETP as well
as RO plant and maintain the record as per water cess rules-1977Will be Complied
4. CONDITION UNDER THE AIR ACT: 4.1 The following shall be used as fuel in boiler/furnace/ heater respectively.
Sr. No. Fuel Quantity1. diesel 30 liter/hour
Will be Complied
4.2 The flue gas emission through stack attached to boiler/furnace/heater shall conform to the following standards:
STACK NO.
STACK ATTACHED TO
STACK HEIGHT IN METER
AIR POLLUTION CONTROL MEASURES
PARAMETER
PERMISIBLE LIMIT
1
Induction Furnace
30 Pulse jet bag filter SPM
S02 NOX
150 mg /NM3 100 ppm 50 ppm 2
D.G set (380 KVA)
10
Will be Complied
4.3 There shall be no process gas emission through various stacks/vent of reactors process vessel or any other ancillary operation.
Will be Complied
4.4 The concentration of the following parameter in the ambient air within the premises of the industry shall not exceed the specified hereunder. NO PARAMETER TIME CONCENTRATION
Will be Complied
Draft EIA Report for M/s. Jay Bharat Steel Corporation proposed to install integrated steel and power Plant at Survey No 405/3,406,407 Village Dhamadka, Bhuj Bhachau Road, Ta- Anjar, Dist; Kutch, Gujarat. ANNEXURE XII : NOC COMPLIANCE
4.5 The applicant shall provide portholes, ladder, platform etc at chimney(s) for monitoring the air emissions and the same shall be open for inspection to/and for use of Board’s staff. The chimney(s) vents attached to various sources of emission shall be designed by numbers such as S-l, S-2, etc. and these shall be painted/ displayed to facilitate identification.
Will be Complied
4.6 The industry shall take adequate measures for control of noise levels from its own sources within the premises so as to maintain ambient air quality standards in respect of noise to less than 75dB(a) during day time and70 dB (A) during night time. Daytime is reckoned in between 6a.m. and 10 p.m. and nighttime is reckoned between 10 p.m. and 6 a.m.
Will be Complied
5. CONDITIONS UNDER HAZARDOUS WASTE: 5.1 The applicant shall provide temporary storage facilities for each type
of hazardous waste as per hazardous waste (Management , handling, transboundary movement) Rules,2008 as amended from time to time.
Will be Complied
5.2 The Applicant shall be obtain membership of common TSDF site for disposal hazardous Waste as categorized in hazardous waste (Management , handling, transboundary movement) Rules,2008 as amended from time to time.
Will be Complied
5.3 The Applicant shall provide temporary storage facility for hazardous waste and maintain the record for generation and disposal for each hazardous waste.
Will be Complied
6.
GENERAL CONDITIONS
6.1 Unite shall develop green belt within premises as per the GPCB guidelines. However, if the adequate land is not available within premises , the unit shall tie up with local agencies like gram panchayat ,school, social forestry office etc. for the plantation at suitable open land in nearby location and submit an action plan of plantation for next three year to GPCB.
Will be Complied
6.2 Plantation should be started along with constitution activity. For plantation within the premises a spacing of at least 4m x 4m shall be kept i.e. to say 250 plants per acre shall be plantation. For plantation out side the premises a spacing of 2m x 2m will be kept i.e. to say 1000 plants per acre.
Will be Complied
6.3 Adequate plantation shall be carried out all periphery of the industrial premises in such a way that the density of plantation is at last 1000 trees per acre of land and a green belt of 10 meters width is developed
Will be Complied
6.4 The applicant shall have to submit the returns in prescribe from Will be Complied
Draft EIA Report for M/s. Jay Bharat Steel Corporation proposed to install integrated steel and power Plant at Survey No 405/3,406,407 Village Dhamadka, Bhuj Bhachau Road, Ta- Anjar, Dist; Kutch, Gujarat. ANNEXURE XII : NOC COMPLIANCE
regarding water consumption and shall have to make payment of water cess to the board under the water cess Act- 1977
6.5 In case of change of ownership/management the name address of the new owner/partner/proprietor should immediately be intimated to the board.
Will be Complied
6.6 The applicant shall however , not within the prior consent of the board bring into use any new or altered outlet for the discharge of effluent or gaseous emission or sewage waste from the proposed industrial plant.rhe applicant is required to make application to this board for this purpose in the prescribed from under the provisions of the water Act -1974 , the Air Act-1981 and the environment(protaction) Act-1986.
Will be Complied
6.7 The applicant also company with the general conditions as per annexure-1 attached herewith (NO.1 to 38) (whichever applicable)
Will be Complied
6.8 The overall noise level in the around plant area shall be kept well within the standards by providing noise control measures including engineering control like acoustic insulation hoods, silencer, enclosures etc on all source of noise generation. The ambient noise level shall conform to the standards prescribed under the environment (protection) Act, 1986 & Rules.
Compliance assured
6.9 The concentration of noise in ambient air within the premises of industrial unit shall not exceed following levels Between 6 A.M and 10 P.M : 75 dB(A) Between 10 P.M and 6 A.M : 70 dB(A)
Compliance assured
6.10 Applicant is required to comply with the manufacturing, storage and import of hazardous chemicals Rules -1989 framed under the Environment (Protection ) Act- 1986.
Compliance assured
6.11 If it is established by any competent authority that the damage is caused due to their industrial activities to any person or his property. In that case they are obliged to pay the compensation as determined by the competent authority.
Compliance assured
6.12 Applicant shall have to comply with all the guidelines/ directive issued / being issued by MoEF/CPCB/DoEF from time to time.
Complied
6.13 Applicant shall not use/withdraw ground water either during construction and/or operation phase.
--
6.14 Environmental cell shall be setup and shall be responsible for the total Environmental Management.
6.15 Monitoring in respect to Air, water, noise level shall be carried out and results shall be submitted to this board on quarterly basis.
Draft EIA Report for M/s. Jay Bharat Steel Corporation proposed to install integrated steel and power Plant at
Survey No 405/3,406,407 Village Dhamadka, Bhuj Bhachau Road, Ta- Anjar, Dist; Kutch, Gujarat.
2 Litho Logical Log of near by Bore Holes of Site Area Village Bhimasar, Taluka Anjar District: Kutch
2 (A)
3 Litho Logical Log of near by Bore Holes of Site Area Village:Moti Chirai, Taluka Anjar District: Kutch
2 (B)
4 Total Water Requirement for Existing and Proposed Project 3 5 Waste Water generation 4 6 Land distribution at site 5 7 Estimation on Runoff 6
8 Size of Recharge pond 7 9 Specifications for large diameter well around tube well 8 10 Information of Wells in and around Plant of M/s Jay bharat steel
Corporation at Village Dhamadaka , Taluka Anjar , District Kutchh 9
11 Chemical Analysis of Water Sample collected from wells in and around Plant of M/s Jay bharat steel Corporation at Village Dhamadaka , Taluka Anjar ,District Kutchh 10‐7‐2013
10
LIST OF PLATES
Sr No Title Plate No 1 Map showing Location of Kutchh & Gujarat I 2 Map showing Location of Anjar, Bachau and Gandhidham
Taluka II
3 Google Map Showing drainage around Village Varsana III 4 Map Showing Location of Site Area IV 5 Map Showing Plant Area V 6 Map Showing Sardar Sarovar Project Canal Command VI 7 Geological Map of Gujarat VII 8 Hydrograph of Piezometer at Bhimasar VIII 9 Various Recharge Structures IX 10 Hypothetical Recharge Percolation Well X
ANNEXURE
Sr No Title Annexure 1 Site Photograph I
Draft EIA Report for M/s. Jay Bharat Steel Corporation proposed to install integrated steel and power Plant at
Survey No 405/3,406,407 Village Dhamadka, Bhuj Bhachau Road, Ta- Anjar, Dist; Kutch, Gujarat.
Land Use Land Area in Sq m Existing Survey Number 407
Land Area in Sq Proposed Survey Number 405/406
I Product Storage area 2000 4000 2 plant and machinery area 8000 18000 3 Raw material Storage area 3000 5000 4 Green Belt Area 3000 4000 5 utility 3000 3000 6 Road and Undeveloped Area 1000 1000 7 Undeveloped Area 1690 1664 TOTAL PLANT AREA 21690.98 36664.24
Estimation on Runoff
Using the information on land use, average rainfall and applicable likely runoff from
plant site area and is given in norms are used in Table 6 estimating is
TABLE 6 ESTIMATION ON RUNOFF
Serial No
Land Use Land Area in Sq m Proposed Survey Number 407
Runoff Coefficient
Rainfall in mm
Runoff Volume in m3
1 Product Storage area 4000 0.85 479 1628.600
2 Plant and machinery area
18000 0.85 479 7328.700
3 Raw material Storage area
5000 0.85 479 2035.757
4 Green Belt Area 4000 0.40 479 766.4000 5 utility 3000 0.80 479 1149.600 6 Road and Undeveloped
Area 1000 0.40 479 191.600
7 Undeveloped Area 1664 0.4 479 317.820
TOTAL PLANT AREA 36664.24 13418.48
Planning for Alternative dependable water supply source through ground water
pumping during extreme emergency
Water requirement of this plant is met through surface water supply through Narmada
Main Canal. However, during the maintenance period of this canal, disruption in continuous
water supply is likely which may likely to hamper production. As stand by dependable water
supply source during extreme emergency ground water pumping is given consideration
Draft EIA Report for M/s. Jay Bharat Steel Corporation proposed to install integrated steel and power Plant at
Survey No 405/3,406,407 Village Dhamadka, Bhuj Bhachau Road, Ta- Anjar, Dist; Kutch, Gujarat.
Draft EIA Report for M/s. Jay Bharat Steel Corporation proposed to install integrated steel and power Plant at Survey No 405/3,406,407 Village Dhamadka, Bhuj Bhachau Road, Ta- Anjar, Dist; Kutch, Gujarat.
Draft EIA Report for M/s. Jay Bharat Steel Corporation proposed to install integrated steel and power Plant at Survey No 405/3,406,407 Village Dhamadka, Bhuj Bhachau Road, Ta- Anjar, Dist; Kutch, Gujarat.