SCHEME OF MINING PART – I CHAPTER-1.0 REVIEW OF MINING PLAN 1.1 Name of Mine : Metabodeli Iron ore mine over an area of 25 Ha. Details of the Area: State Chhattisgarh District Kanker Tehsil Pakhanjur Forest Circle Kanker Forest Division Bhanupratappur (West) Forest Range Koilibeda Protected Forest Kothodi Protected Forest Village Metabodeli/Chargaon Compt. no. 426/1305 (7.5 Ha) 427/1306 (17.5 Ha) Ownership Protected Forest land Toposheet no. 64 D/16 Latitudes 20 0 02′ 21.96″ to 20 0 02′ 53.52″ Longitudes 80 0 58′ 35.58″ to 80 0 59′ 09.12″ The Forest map is enclosed as Plate no. I. Lease deed is enclosed as annexure-VI. The Key plan is enclosed as location plan in Plate no. II. The area is approachable from village Chargaon, SE of village a hill is at a di stance of 2 km. Ch ar gaon is ap pr oachable by 25 km forest road from Pondgaon, on Rajnandgaon-D urg-Rajhara-B hanupratapp ur-Narayanpur -Jagdalpur state highway. The nearest rail-head is Dalli-Rajhara at a distance of about 84 km. Period for which the Mining Lease is granted: HIG-21, Hudco colonyPage 1 of80SHALABH SAHA Bhilai, Dist- Durg (C.G)RQP/NGP/302/2003/A
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.
The Mining Lease is granted for a period of 20 years from 17/01/2002 to
16/01/2022.
1.2 Particulars of approval of Mining Plan (under MCR or MCDR, indicateapproval letter no and date)
The mining plan was approved by Indian Bureau of Mines, Nagpur vide letter No.
BST/Fe/MPLN-465/NGP dated 02-04-1996 and thereafter mining lease was
executed on 17/01/2002. Hence, the first five years of the Mining Plan was 2002-
03 to 2006-07. The subsequent Scheme of Mining for the period of 2007-08 to
2011-12 was approved by IBM Nagpur vide letter No. BST/Fe/MPLN-465/NGP
dated 24.11.2008.
1.3 Date of commencement of mining operations.
After the approval of the Mining Plan on 02/04/1996 and thereafter execution of
lease deed on 17/01/2002, the working permission was given by Collector on
28/06/2002, and mining operation started on 01/08/2002. But due to unforeseen
circumstances beyond the control of lessee, the mining operations could not be
started in full swing; as such, the proposed programme of development and
production, as mentioned in the approved mining plan/scheme of mining could
not be achieved.
1.4 (a.) Deficiencies, if any, that existed in the approved mining plan to betaken note of and rectified by incorporating suitable proposals forimplementation in the scheme of mining.
Due to naxalite problem in the vicinity of the area the targeted production as per
approved mining plan could not be achieved. Float ore in the area has been
collected looking to the condition of the area.
(b.) Review of compliance position of salient features of the Mining Plan onChapter wise basis bringing out marked deviations, if any, and
justifications / reasons thereof. Items to be covered may include
exploration, mine development, exploitation, afforestation programme,reclamation & rehabilitation, control of dust, noise & ground vibrationsand any other significant feature.
Status of different parameters of mining plan vis-à-vis actual achieved
(i) Exploration:The details of the proposed programme during approved Mining Scheme period
(2007-08 to 2011-12) are given below:
YEAR ProposedBore Holes
Depth of Bore Holes Proposed Trial Pits(2.5x2.5x3.0)
(xix) The resources of float ore is as under: The surface area covered by float
ore is 88,000 sq m and average thickness has been taken as 3 m (as per the
approved Scheme of Mining) (categorized as G2).
Surface
area
(sq m)
Thickness
of float ore
zone (m)
Volume
(cu m)
Recovery of float oreboulders
25%of the total
volume
(cu m)
B.D Mineral
Resources
(Tonnes)
Mineral
Resources
(Million
tonnes)
88,000 3.0 2,64,000 66,000 3.5 2,31,000 0.23
Since inception, total production was carried out from the float ore zone only, andhence this has also been depleted from the float ore reserve. The mineral lifted
On the basis of the mineable reserve of 4.172 tonnes and annual proposed
production rate of about 0.2 million tonnes, the anticipated life of the mine will be
about 20.86 years (say 21 years).
3.5 Year wise Exploration proposed to be carried out during the ensuing 5years period. Location of trial pits and/or boreholes to be depicted onthe geological plan.
The proposed exploration programme will be as under:
25 nos. of vertical bore holes have been proposed during the first year of the
scheme period at about 100 m grid interval, hence all the Insitu ore zone will
comes under proved category. In first phase bore-holes will be carried out on
strike length at about 100 m interval, thereafter, in second phase, bore-holes will
be carried out in about 50 m interval for confirming the quality of ore in dip
direction.
In the float ore zone, 24 trial pits have been proposed during the first year atabout 100 x 100 m interval to ascertain the recovery of float ore.
To know the quality of BHQ (Fe- content) as per the threshold value of minimum
45% Fe-content, 5 nos. of trenches have been proposed during the first year.
Hence, the iron ore reserves of almost the lease area will be proved during the
first year of the mining plan period. The quantity and quality of the BHQ area will
be estimated as per the analyses report of trenches.
The locations of PBHs, PTPs and PTTs are marked on the Geological Plan and
sections given in plate nos.-IV & IV A. The details are given below:
trial pit 24 100 x 100 2 x 2 x 3 m -- -- ` 1,20,000Trialtrenches
5 -- 5 x 2 x 2 -- --` 35,000
Total ` 19,95,000
* * * * * * * *
CHAPTER-4.0
CONCEPTUAL MINING PLAN
Salient features of an updated/modified conceptual plan of the mine
covering the period of anticipated life of the mine, depicted on minegeological plans and sections with necessary statement annexedsupported by essential text, covering the basic & long term designfeatures of mine covering exploration, mine development, optimumexploration & utilization of the mineral, waste & sub-grade mineralmanagement, and environmental aspects. The ensuring five year detailedprogramme should but be a part of the conceptual overall mining plan.
The total lease area is 2,50,000 sqm (25 Ha). The workable area for mining will be
1,86,800 sq m (1,09,000 sq m in insitu ore + 77,800 sq m in float ore).
Out of which float ore area will be filled back, after ascertaining the non
mineralized area, with the generated waste material and ultimate pit will be about
1,09,000 sq m.
(i) Time frame of completion of mineral exploration programme in the
lease, with broad description identifying the potential area to be covered
in the given time frame.
The entire lease area will be explored as per the exploration proposed in Para 3.5
and thereafter no further exploration is required. This has been described indetails in para 3.5.
During the second year onwards, the mining will be carried out on insitu ore zone.
The mining will be done in the two benches, first bench will be av 1.0 m height
upto a level of 575 mRL to liquidate the mound-shaped topography. The area of
excavation for ROM mining of ore will be about 3,900 sqm. The volume of ROM will
be 3,900 x 1 = 3,900 cum. The second bench will be from 575 to 570 mRL. The
area of excavation for ROM mining of ore will be about 3,900 sqm. The volume of
ROM will be 3,900 x 5 = 19,500 cum. Total ROM will be 3,900 + 19,500 = 23,400
cu m, thus the production will be 23,400 cum ×3.5 = 81,900 T, out of this, 90%
will be recovered ore will be 73,710 T.
Third Year (2014-15) Development and Production:
During this year, the mining will be carried out in the two benches of 5 m each. Infirst bench, mining will be carried out towards north-eastern direction from 570 to
565 mRL. The area of excavation for ROM mining of ore will be about 7,520 sqm.
The volume of ROM will be 7,520 x 5 = 37,600 cum.
The second bench mining will be carried out below this production, from 565 to
560 mRL. The area of excavation for ROM mining of ore will be about 4,800 sqm.
The volume of ROM will be 4,800 x 5 = 24,000 cum.
Total ROM production will be 61,600 cum × 3.5 = 2,15,600 T, out of this, 90% will
be recovered ore i.e. 1,94,040 T which will be graded production of this year.
Fourth Year (2015-16) Development and Production:
During this year, the mining will be carried out in the two benches of 5 m each. In
first bench, mining will be carried out towards south-western direction from 570 to
565 mRL. The area of excavation for ROM mining of ore will be about 7,600 sqm.
The volume of ROM will be 7,600 x 5 = 38,000 cum.
The second bench mining will be carried out below this production, from 565 to
560 mRL. The area of excavation for ROM mining of ore will be about 4,800 sqm.
5.4 Any changes in the proposed method of Mining and development of machinery, together with reasons thereof.
The proposed method of mining will fall under Other Than Fully Mechanized
(OTFM).
Salient features of Mining:
1 Type of ore to be mined out Iron ore
2 Method of Mining OTFM3 Machineries used Wagon drills, shovel, dumpers4 Production max. (in a year) 2,00,000 T5 Average working days in a year 300 days
Drilling:
The holes will be drilled by wagon drill of 63 mm dia will be as below.
Maximum Production/year 2,00,000 TProduction/ development in a day
(by taking 300 working days in a year) 666.66 TSay 667 T
Output per hole = Spacing × burden × depth.
2.4 m × 2.2 m × 5 m 26.4 cumROM tonnes (3.5 B.D.) 92.5 TNos. of holes per day (667 / 92.5 ) 7.21 nos.
Say 7 nos.Meterage to be drilled on ore zone for 5 m bench
(5.5 m including sub-grade drilling) (7 × 5.5) 38.5 m
Drilling capacity of wagon drill in a hour 6 mWorking hours per day taking utilization 50% 4 hoursWorking capacity of a wagon drill per day 6 × 4 m 24 mTherefore Nos of wagon drill required
(38.5 / 24 = 1.60, say 2) 2 no.
Blasting
For proposed production, blasting of 2 holes/day will be required. The drilling and
blasting will be done in single/multiple row pattern. Blasting will be done once in
a week depending upon the requirement.
Broad blasting parameters for 63 mm dia. wagon drill as per standard norms:
Diameter of wagon drill holes 63 mmDiameter of the cartridge 50 mmLength of the cartridge 220 mmWeight of the cartridge 625 gmCharge per hole cartridge 8.75 kgNo. of cartridge required per hole (8.75 kg /625 gm) 14 nosDelay detonator electrical 1 noSafety fuse (1.20 length) 1 noNo. of holes required to be blasted /day 2 nosExplosive required per day will be 2 x 8.75 = 17.5 kgPowder factor per kg of explosive
(92.5 / 8.75 = 10.57) About 10 TNote:
(i) For achieving 667 tonnes excavation per day drilling & blasting with delay
detonators of 7 holes ones/twice in a week will be required.
(ii) The blasting will be carried out around 7 AM or during the rest hours of 2 to
2.30 PM for safety.
(iii) Preferably wet drilling will be done for suppressing dust and muffle blasting
for suppression of noise will be carried out.
(iv) All precautions for blasting and safety measures will be taken at the time of blasting and will be carried out by qualified/certified blaster.
(v) During blasting, the safety zone of 750 m will be barricaded by red flags so
that unauthorized entry in the blasting zone is checked.
(vi) Blasting if carried out in mid day (2 to 2.30 PM), all the workers should take
safety shed and blasting should carried out under the supervision of Mining
Forman/Safety Engineer.
(vii) Blasting parameters are to be optimized by experimenting and to be
implemented accordingly.
(viii) All safety measures as stipulated in MMR 1961 will be strictly adhered to
during blasting.
Whether secondary blasting is needed, if so, describe it briefly.
No secondary drilling will be required. The oversize boulders will be further
reduced to loadable size by manual labour.
Loading, Haulage and Transporting:
The loadable sized ROM will be transported to the stock yard by shovel-dumper
combination for further processing.
Requirement of shovel is as under:
Annual Excavation 2,00,000 TExcavation per day (based on 300 wrg days) 667 TBucket capacity of 2 cum
Safe Loading capacity (90%) 1.8 cumSay 1.8 x 2 (B.D. for ROM) i.e. 3.6 TOne excavator can load per hour takingavailability of 4 hours / day (50 %)Loading cycle time of excavator into 15 Tdumper will be about 15 minutes. Thereforein one hour a shovel can load 4 dumpers i.e.4 x 12 T(safe loading capacity of dumper) =
Production per day (based on 300 wkg days) 667 TDumper capacity 15 TDumper capacity as safe loading (80%) 12 TNo. of trips required per day (667/12=55.58)say 56 nosTotal time taken for spotting, loading,
transporting from quarry to stock yard (distance
1.0 km), unloading at stock yard and back to the
quarry.
1hour
Availability 65%Utilization 70%Effective hours per day 8 × 0.65 × 0.70 3.64 hourHence, one dumper can make 3.64 trips in a day Say 4 tripsNo. of dumpers required (56/4) 14 nosAdditional dumper required as standby 6 nos.Hence, total dumpers required will be 14+6 20 nos.
Machineries required is as under:
S
No
Machinery Capacity Nos.
required
Mode
1 Wagon drill 63 mm dia 2 no. For drilling2 Dozer Medium 1 no. For dozing and leveling the
4 Mining Mate (certificate holder) 025 Supervisor Experienced 036 Accountant Experienced 017 Blaster (certificate holder) 028 Blasting assistant Experienced 029 Senior mechanic Experienced 0110 Mechanical fitter Experienced 0211 Driller Experienced 0213 Dumper operator Experienced 2015 First Aider Qualified 0116 Helpers for equipments Skilled 1017 Time keeper --- 0118 Watch man for 2 shifts --- 0419 Semi-skilled labour for
sorting and sizing of ROM
Semi-Skilled 150
Total 205
Note: The semi-skilled/un-skilled labour will be required for recovery of float ore
boulders from the excavated mass by ripper fitted in shovel and reduction of
oversize boulders in float ore and blasted ROM and further sizing & sorting of ore
before transporting to the plant at the stock yard.
* * * * * * * *
CHAPTER-6.0
HANDLING OF WASTE / SUB- GRADE MATERIAL:
6.1 Rate of yearly generation of waste and Proposal for disposal of waste fornext five years (indicate sequence of dumping with necessary plans andsections).
In the mining lease area, which is hilly in nature, where insitu ore is occurring, the
lateritic soil is occurring as very thin cap in some part of the area excluding the
float ore zone. Therefore, the removal of top soil for mining insitu ore is not
necessary.
In the float ore zone, the float ore is occurring with lateritic soil upto a depth of
about 3 m, wherein the recovery of float ore boulders will be about 25% and the
rest 75% of lateritic soil will be restored back into the excavated area by dozing.
The yearly generation of waste material is as under:
Year Volume of intercalated waste
(M3)
Remarks
2012-13 22,500 Volume of intercalated waste(soil mixed with laterite, intercalated
material) 75% of the excavation.Total 22,500
Note: From II year onwards there will be no generation of waste/intercalated
waste, since the mining will be confined to the insitu ore zone.
6.1.1Build up of dumps from year to year to be shown in yearly plans andsections with description of the method & manner of disposal of wasterock, designed capacity & height of individual dump and precautionsenvisaged for confinement of the dumps together with design details of
After the float ore is mined out, the area will be concurrently backfilled by the
generated waste material. Hence, the entire waste generated during first year will
be fully utilized for backfilling the excavated area.
Hence, there will be no waste dump generated during this Scheme of Mining
period.
6.2 Rate of yearly generation of sub-grade mineral with reference tothreshold values and Proposal for stacking for next five years (submittednecessary plans and sections). (In case variation from the recommendedthreshold value of IBM, please give adequate justification and reasons).
The sub-grade material above the threshold value will be hardly 5% of the total
ROM which is below 58% Fe, which will get blended with the high grade ore.
Hence, generation of sub-grade ore will be nil.
6.3 Quantity and grade of sub-grade material available at the mine as ondate duly supported by plans and sections and descriptive inclusive of the precautions adopted for storage.
The sub-grade material will be fully blended with the higher grade ore, therefore
no sub-grade material will be available at the mine.
* * * * * * * *
CHAPTER-7.0
USE OF MINERAL
7.1 Changes proposed in use of mineral if any with reasons.
The ore of Metabodeli mine will be used for blast furnace and sintering plant of the
company at Siltara, District- Raipur.
In order to utilized entire iron ore that will be produced from the other mines, the
company is proposing to set up a Pellet plant with a proposed capacity of 1.2 MTPA
and Beneficiation plant at their plant premises. The lessee is also proposing a
beneficiation plant in Bhanupratappur for up-gradation of ore produced from other
nearby mines in view of total utilization of sub-grade ore. Hence, entire iron ore
produced in his other mines will be utilized in steel plant of the company.
7.2 Changes in the specifications, if any, imposed by the user industriesand /or specifications required in case of new user industries, if any, tobe given.
The specification of iron ore at present for various units of company’s integrated
steel plant is given as under:
• For Blast Furnace----+ 62% Fe content in the size of 20-40 mm
• For DRI (Sponge Iron Plant)--+ 63% Fe content in the size of 8 to 20 mm.
• For Sinter Plant--- + 59% Fe content in the size of 5 to 8mm.
• For Pellet plant---- + 64% in the size of 0 to 5 mm.
In the crushing and screening plant at Siltara, after the crushing to maximum 40
mm size, the lumps (8 mm-40 mm) is expected to be about 60% and the
remaining -8 mm fraction in the form of fines will be about 40%.Ore below 58% Fe-content shall be upgraded in Beneficiation plant proposed at
Bhanupratappur and shall be utilized in the pellet plant.
Recently, 5 iron ore samples the Metabodeli mine have been analysed by the
laboratory of Directorate of geology and Mining, Jagdalpur, which is tabulated
2 B 1.87 94.33 1.20 0.00 2.04 65.51 99.443 C 2.64 92.04 1.30 0.00 3.52 63.92 99.504 D 9.91 85.89 1.40 0.00 2.20 59.65 99.405 E 12.08 80.42 2.40 0.00 4.53 55.85 99.43
Copy of the Analysis Report is enclosed as Annexure No. XIII.
7.3 Efforts made for utilization of the Sub-Grade mineral including fines.
The sub-grade ore will get automatically blended with high-grade ore to maintain
the quality specification required by the Steel plant.
* * * * * * * *
CHAPTER-8.0
MINERAL BENEFICIATION
8.1 Results of any beneficiation investigations conducted and changes madein existing mineral beneficiation plant and tailing disposals, if any, withbenefits expected (necessary flow-sheet and tailing dam designs etc. tobe submitted as applicable).
No Beneficiation is required for this ore. The beneficiation process normally
involves sorting, sizing and blending at the mine site. The quality of ore fulfills the
specification required for the blast furnace; hence no additional beneficiation is
required.
At present beneficiation investigation has not been carried out. As soon as mine is
developed in full fledge, the detailed beneficiation test, if required, will be carried
out. At present the quality of ore fulfills the specification required for the blast
furnace as well as DRI; hence no beneficiation is required for ore produced from
this mine.
8.2 Beneficiation test done, if any, on sub-grade mineral including fines andproposals for installation of new or additional beneficiation facility, if any, (furnish process details in brief along with expected tailing loss).
Not applicable.
* * * * * * * *
CHAPTER-9.0
ENVIRONMENT MANAGEMENT PLAN:
1 2 3 4Salient items to
be coveredUnder columnnos.2,3 & 4 areas under
Proposals as
per approvedmining plan(indicate dateof approval of scheme of
Position at the
end of 5 year of scheme period(justification tobe given formarked
No generation of top soil duringthe schememining period.
Not working. No top soil will begenerated in this SOM formining the insitu iron orezone.
(ii) LandReclamation andrehabilitation
Does not arisedue to slicemining.
Not working. Does not arise due to slicemining.
(iii) Waste dumpmanagement
Backfilled on thefully mined outfloat ore zone.
Not working. Backfilled on the fullymined out float ore zone.
(iv) Afforestationprogramme
100 saplings of will be planted inper year.
Not working. 100 saplings will be plantedper year of this miningscheme period.
(v) Quality of air The air will bepolluted by
excavation of ROM,transportation,drilling & blasting.
Monitoring has beencarried out in the
area. However,about 4,000 saplingwere planted in thenearby villages asCSR.
The air will be polluted tosome extent by excavation
of ROM and during thetransport of dumper fromthe haulage road. Further,pollution of air duringdrilling upto 5 m depth andblasting. This can bereduced to some extent bywet drilling, muffle blastingas well as sprinkling of water on the blasted masswhile loading and on thehaulage road.
(vi) Quality of mine water andany interferencewith surface water.
There will be nointerference of sub-surfacewater in miningpit.
Monitoring has beencarried out in thearea.
There will be nointerference of sub-surfacewater in mining pit.
Salient items to be coveredUnder column nos.2,3 & 4 are asunder
Proposals asper approvedscheme of mining(indicate dateof approval of scheme)BST/Fe/MPLN-466/NGP dated24.11.2008.
Source of noise to beidentified Pattern of blast & design of blastwith details of sufficient no. of experimental blastsconducted to be given
Not working.
The mining equipments will beproperly maintained to minimizethe noise level.Due to the muffle blasting theadverse effect for noise pollutionwill be minimum.The equipment operators will beprovided ear plugs.
( v i i i )
V i b r a t i o n Not working. Due to muffle blasting the
vibration can be minimized andwill be within permissible limit.
(ix) Treatment of mine waterand affluent, toxic substancebefore discharge
Not working.There is no acid mine drainage andtoxic material in the mine.
(x) Recirculation of treated
water Not required Not required
(a). The status of baseline information is as under:
The environment monitoring regarding ambient air, waste and noise are being
taken on regular basis, the baseline information has been taken from the
Near lease area -- 126 - 138 42 - 44 18 -20Buffer zoneMetabodeli village 1.5 km NE 140 -147 44 - 46 21 – 23Chargaon village 1.0 km E 145 - 153 47 - 51 24 – 27Surwahi village 1.5 km NE 149 - 156 48 - 53 26 - 30
The results of analysis are enclosed as Annexure No. XI.
(iii) Water regime:
There is no local water regime of any importance which is passing through the
lease area. Only the rain water falling in the area flows down. Average water depth
in wells in various villages is about 10 m below the surface ground level. The water
samples were collected and analyses, the locations of sampling stations are shown
on Key Plan, Plate No. II.
Nearest drainage is Chargaon river towards S-E part of the area with a distance of
3 kms and Putunggori Nala towards northern part of the mine area with a distance
of about 2.5 Kms.
The ground water level observed in tube wells is as under:
Location Distance fromlease area
Water level
Core zone
Near lease area -- 10 – 10.20 m
Buffer zoneChargaon village 1.0 km E 9.50 – 9.70 mMetabodeli village 1.5 km NE 9.00 – 9.30 m
Near lease area -- √ √ √ Buffer zoneMetabodeli village 1.5 km NE √ √ √ Chargaon village 1.0 km E √ √ √ Surwahi village 1.5 km NE √ √ √ Chargaon nadi -- -- -- √
The environment monitoring schedule is as under:
Component MonitoringParameter
Monitoring Method MonitoringFrequency
Ambient AirQuality(inside mines)
SPMRSPMSO2
NO2
SPM, SO2 & NO2 –CPCB Method
(Emission Regulation– Part III)
Quarterly
Noise Levels Average Leqvalues and
Maximumvalue of SoundPressure Levelin dB(A)
CPCB method usingequipment as per IS-
9989 & IS :9779
Monthly(for day &
night time)
WorkEnvironment
1. RespirableDust2. Inhaled Dust
1. Respirable DustSampler2. Personal SamplerMonitoring Procedureas per OSHA Method
Results of any investigation carried out for scientific mining, conservation
of mineral and protection of environment; future proposal, if any.
No investigation was carried out for scientific mining, conservation of mineral and
protection of environment during the earlier Mining Plan / Scheme of Mining
period.
Information on activity carried out under Corporate Social Responsibility
(CSR)
In addition to afforestation to preserve the environment in and around the mine
area the company has done CSR activity in respect of Metabodeli Iron Ore mine in
following manner:
S.No
Year Details of activity done under CSR Total cost(Lakh Rs.)
1. 2008-09 Construction of Approach road, organizing health camp,Technical education to boys & girls in the periphery of thearea, Free of medicine distribution, Digging of hand pump inthe affected area, Nurshing course, Training health workersetc.
2. 2009-10 Organizing health cap, ITI training to 9 boys in the peripheryof the area, Free of medicine distribution, Digging of handpump in the affected area, Nursing course, Training healthworkers etc.
88.79
3. 2010-11 Construction of village road, Organizing health camp,nursing training to girls in the periphery of the area, Free of cost medicine distribution, Digging of hand pump in theaffected area, Nursing course, Training health workers etc.
100.00
4 2011-12 Construction of village road, Organizing health camp ,nursing training to girls in the periphery of the area, Free of cost medicine distribution, Digging of hand pump in theaffected area, Nursing course, Training health workers etc.
123.26
5 2012 tillDec 12
Organizing health camp, nursing training to girls in theperiphery of the area, Free of cost medicine distribution,Nursing course, Training health workers etc. Pojja culturalprogram
08.57
Total 359.1
* * * * * * *
PROGRESSIVE MINE CLOSURE PLAN(Part-II of the Scheme of Mining)
CHAPTER-11.0
11.1.0. INTRODUCTION:
The name of lessee, the location & extent of lease area, the type of lease
area (forest, non-forest etc), the present land use pattern, the method of
mining and mineral processing operations should be given.
(a) Name and Address of the Lessee:Name of the lessee – M/s jayaswal Neco Industries Ltd
Address – Siltara Growth center, Raipur
Status of the Lessee –
The lessee is a public limited company.
(b) The location & extent of the lease area, the type of lease (forest/Non-
Describe in brief the mineral beneficiation practice if any indicating the
process description in sort. Indicate discharge details of any tailing /
middling and their disposal / utilization practice followed.
This mine is a captive source of Lessee’s steel plant near Siltara, Dist-Raipur(C.G.). Mineral beneficiation plant is not required for Metabodeli iron ore, since the
quality meets the specifications required for the plant. Only breaking, sizing,
sorting and blending is sufficient to meet the quality requirement of Plant.
* * * * * * * *
11.3.0. REVIEW IMPLEMENTATION OF MINING PLAN/ SCHEME OF
MINING INCLUDING FIVE YEAR PROGRESSIVE CLOSURE PLAN UPTO
FINAL CLOSURE PLAN OF MINE:
Indicate in detail the various proposals committed to be implemented
with special emphasis on the proposal for scientific mining, conservation
of minerals and protection of environment in the approved Mining
Plan/Scheme of Mining including five years Progressive Closure Plan up
to the Closure of mine vis-a vis their status of implementation. Highlight
the areas, which might have been contaminated by previous mining
activities and type of contaminants that might have been found there. Thereason for deviation from the proposal, if any, with corrective measures
(ii) Afforestrationon the backfillingarea(iii) Others (pleasespecify) e.g.(iv) Pisciculture(v) Converting intowater reservoir(vi) Picnic Spot
STABILIZATION & REHABILITIONOF DAMS(with lease)
(i) Terracing(ii) Pitching(iii) Construction of
Parapet Walls /Retaining wall attoe dump(iv) Construction of Check Dams alongslope of vallies etc.(v) Construction of Setting Ponds(Garland drain etc.)(vi) Desilting of setting ponds,channels.(vii) Afforestrationon dumps.(viii) Others (please
specify)REHABILITIONOF BARRENDAREA WITHINLEASE
(i) Afforestration(Green beltbuilding)
0 .
1 0
0 .
1 0
0 .
1 0
0 .
1 0
0 .
1 0
1 0 0
1 0 0
1 0 0
1 0 0
1 0 0 -
-
4 0 0 0
4 0 0 0
4 0 0 0
4 0 0 0
(ii) Others(please specify)
ENVIRONMENTALMONITORING(Core zone & Buffer zoneseparately)
(i) Ambient AirQuality(ii) Water Quality(iii) Noise levelSurvey(iv) GroundVibration