EXECUTIVE SUMMARY FOR PUBLIC HEARING (AS PER EIA NOTIFICATION SEPT’ 06)
OF
PROPOSED
HARRADOL UG PROJECT
(PRODUCTION CAPACIY 0.135 MTPA & LEASE AREA 27.45 Ha)
JANUARY - 2009
Prepared by :-
ENVIRONMENT DEPARTMENT WESTERN COALFIELDS LIMITED COAL ESTATE, CIVIL LINES NAGPUR - 440001
EXECUTIVE SUMMARY
1.0 INTRODUCTION
Harradol patch is situated in the western part of Rakhikol colliery of Damua group of collieries in between two major faults namely Bagdeo fault in the north and Damua fault in the south. Based on the production support drilling carried out in Harradol patch, a Geological Note was prepared and submitted in March’ 2000 by MECL by utilizing the data of eight MHP series (MHP 1-8) and six MKRP series (MKRP 1, 5, 7, 8, 9, 10) boreholes. Prior to submission of the above geological note by MECL, a marginal scheme for exploitation of coal reserves of Harradol patch was prepared by Kanhan Area. The above scheme was vetted by CMPDI, RI-IV, Nagpur based on the borehole data available at that time and was submitted to WCL in February’ 2000. The above marginal scheme was sanctioned by competent authority on 6.3.2000 after vetting by CMPDI. However, the Harradol mine could not be started due to some obstructions.
The Harradol mine was basically planned as a replacement mine for Bansi Incline. Now, in the present scenario, Bansi and Rakhikol UG mines are already exhausted and closed and Damua 26-27 Incline are also likely to be closed due to adverse geo-mining condition. Hence, it has become very essential to open Harradol mine to make-up the shortfall of coal to some extent.
Keeping in view of present scenario and techno-economical aspects, a draft scheme of Harradol UG mine has been prepared by Kanhan Area, WCL and submitted to CMPDI, RI-IV, Nagpur on 20.07.2007 for examination. After perusal of the scheme submitted by Area, it was felt that the entire scheme needs to be reformulated in view of the Geological Note on Harradol patch prepared by MECL in March’ 2000. Accordingly, the present scheme has been prepared by CMPDI, RI-IV, Nagpur on the basis of Geological Note prepared by MECL on Harradol patch in March’ 2000 and the data furnished by the Area in the scheme.
1.1 Recent Studies and Development
The exploration job in the western part of Rakhikol colliery was assigned to MECL to prove the virgin patch around Harradol lying between Bagdeo & Damua faults. Accordingly, the initial drilling work in Rakhikol colliery area was commenced on 24.10.94 and a total 10 boreholes (6 boreholes MKRP – 1, 5, 7, 8, 9, 10 in Harradol patch and 4 boreholes MKRP – 2, 3, 4 & 6 in Markadhana patch) were drilled by October’ 1996. Subsequently, 8 more boreholes (MHP – 1 to 8) were drilled by MECL in Harradol patch during the period from 7.11.98 to 7.12.99. Based on the data of 14 boreholes drilled in Harradol patch (8 boreholes MHP – 1 to 8 and 6 boreholes MKRP – 1, 5, 7, 8, 9, 10 ), a note namely “Geological Note on Production Support Drilling, Rakhikol Colliery (Harradol Patch) Area, Pench Kanhan Valley Coalfield, Chhindwara district, Madhya Pradesh” was prepared by MECL and submitted in March’ 2000.
The above Geological Note has revealed that the coal reserves of Harradol Patch is partly heat affected having UVM (Unit Volatile Matter) % less than 30%.
The part of the coal reserves of Harradol patch which is not heat affected (UVM > 30%) is medium coking coal, whereas the remaining part of the coal reserves having UVM < 30% is non-coking coal. In the scheme for Harradol UG mine, the heat affected non-coking coal having UVM % in the range of 18% to 30% has been considered for extraction alongwith medium coking coal. The non coking coal having UVM % less than 18% has been excluded from the proposed mine area.
1.2 Necessity of the Scheme for Harradol UG Mine
A number of mines of Kanhan Area of WCL have been closed or are likely to be closed due to exhaustion of coal reserves. Bansi and Rakhikol mines of kanhan Area are already exhausted and closed and Damua 26-27 Inclines are also likely to be closed due to adverse geo-mining condition. The production from Nandan-2 UG mine is presently discontinued. Under such circumstances, there is shortfall in the production of Kanhan area and therefore opening of even small new mine like Harradol UG mine has become essential.
Although, the coal reserves of proposed Harradol UG mine is partly medium coking and partly non-coking and continuous supply to Nandan Washery is not feasible, the production from Harradol mine will certainly reduce the gap between demand and supply of coal in Kanhan area as well as in WCL. Hence the scheme for opening the Harradol UG mine in Kanhan Area of WCL is necessary.
2.0 PROJECT SITE INFORMATION
2.1 Location
The proposed Harradol U/G mine has been envisaged in a part of small Harradol patch located in the western part of Rakhikol colliery of Damua group in between two major faults namely Bagdeo fault in the north and Damua fault in the south. The area is located in Kanhan Area of WCL and falls in administrative jurisdiction of Junnardeo Tehsil of Chhindwara district, M.P.
2.2 Communication
The proposed Harradol mine is approachable by existing road joining Rakhikol colliery (Incline no.-27 & 28) to Bansi mine. The Rakhikol colliery is located to the west of Damua town and is approachable from Damua by a four km. long all weather motarable tar road. Damua in turn is well connected to Chhindwara via Parasia by a 72 km. tar road.
Hirdagarh railway station located about 19 km. southeast of the area is the nearest rail head on the Amla-Parasia broad gauge section of the Central Railway. Amla lies on the Nagpur-Delhi broad gauge line of the Central
Railway. A railway siding is also constructed from Hirdagarh to Nandan Coal Washery which is located just 3 km away from the block.
2.3 Topography
The proposed Harradol patch has difficult and rugged terrain with Surface R.L. ranging from 764.97m (B.H. No.- MKRP-9) to 877.67m (B.H. No.- MHP-3). The area is covered with forest land.
3.0 GEOLOGY AND DEPOSIT APPRAISAL
3.1 Based on the data of 14 boreholes drilled in Harradol patch (8 boreholes MHP – 1 to 8 and 6 boreholes MKRP – 1, 5, 7, 8, 9, 10 ), a note namely “Geological Note on Production Support Drilling, Rakhikol Colliery (Harradol Patch) Area, Pench Kanhan Valley Coalfield, Chhindwara district, Madhya Pradesh” was prepared by MECL and submitted in March’ 2000. The geology of the proposed Harradol UG mine is based on this Geological Note.
3.2 Block Boundary
The boundary of the block has been defined as follows:-
North : Bagdeo Fault, FB South : Damua Fault, FD East : Fault F4-F4 West : Fault F1-F1 (For Reserves Estimation Fault F2-F2 serves as western block boundary) 3.3 Borehole Data
The present geological assessment of the block is based on the data of following 14 boreholes : Sl. Particulars Quantity No. 1. Boreholes: a) MKRP Series 6 (MKRP – 1,5,7,8,9 & 10) b) MHP Series 8 (MHP – 1 to 8) Total 14 boreholes 2. Meterage MKRP Series – 676.75 m MHP Series – 1361.40 m Total - 2038.15 m 3. Total Area 0.38 sq. km. 4. Borehole Density 37 boreholes/sq.km. 5. Analytical Data 3 B.H.s of MKRP Series (MKRP – 5, 7 & 10) 7 B.H.s of MHP Series (MHP- 1, 2, 3, 5, 6, 7 & 8)
3.4 Geological Succession of the Block
The geological succession of the block as worked out from the sub- surface data generated from the 14 boreholes drilled in the block and
data collected from the nearby mine workings is given in the following Table :.
Geological Succession of the Mining Block
Age Formation Lithology Thickness Range (m) Minimum Maximum Recent Soil Sandy and 0.50 3.00 Clayey soil (MKRP – 7, 8 & (MKRP-1) 10) Lower Motur SST-MGD with 45.54 156.12 Permian variegated clays (MKRP-9) (MHP-2) Barakar SST, FGD-MGD 23.00 (+) 82.55 (+) occ. CGD & (MHP- 4) (MKRP-1) Shale with coal seams
3.5 Geological Structure
Strike and Dip
The general strike of the beds in the block is east-west and it takes moderate swing in the western part (S 850 W – N 850 E) and eastern part (N 660 W – S 660 E).
The dip of the beds varies between 50 to 80 due north.
Faults
A total six faults namely F1-F1, F2-F2, F3-F3, F4-F4, FB (Bagdeo Fault) and FD (Damua Fault) have been interpreted in Harradol patch out of which Bagdeo (FB) and Damua (FD) faults are major faults and rest are minor faults. Out of six faults, four (F1-F1, F4-F4, Bagdeo Damua) are boundary faults. In the western side a very narrow patch exists between F1and F2 faults, and therefore this patch has been excluded in the Geological Report for reserve estimation. Hence, for reserve estimation, fault F2 serves as boundary fault. Thus only one fault namely F3 traverses through the block in east-west direction with southerly downthrow of 2 to 5m.
3.6 Description and Quality of Coal Seams
The existence of three coal seams viz, Seam-III, Seam-II & Seam-I occurring in descending order has been established in Damua-Rakhikol-Kalichappar area. Out of the three seams, Seam-III is target seam for present exploration as it has
attained workable thickness. Seam-III splits into two sections namely Seam- III(Top) and Seam-III(Bottom). Seam-III(Top) has attained workable thickness whereas Seam-III (Bottom) is not persistent in the block. No borehole has been deepened beyond Seam-III except in cases where Seam-III is not encountered or there was difficulty in Seam correlations. Seam-II is intersected in only two boreholes MKRP-7 & 8. None of the boreholes has been deepened upto Seam- I.
The salient features of the only workable Seam-III (Top) are summarized below: Sl. No. Particulars Description 1. Seam Intersection a) No. of Boreholes 14 (8 BHs of MHP & 6 BHs of MKRP series) drilled 8 BHs (MHP-2, 3, 5, 6, 7 & 8, MKRP- 5 & 9) b) Full seam 4 BHs (MHP-1 & 4, MKRP- 7 & 8) intersection 2 BHs ( MKRP- 1 & 10) c) Part seam intersection d) No seam intersection 2. Floor Depth Range (m) Minimum : 76.33 (MKRP – 8) Maximum : 199.52 (MHP – 2) 3. Seam Thickness (m) Minimum : 2.00 (MHP – 7) Maximum : 3.74 (MHP – 6) 4. Nature of Roof Immediate : Dominant : Shale Subordinate : CSH 3 m column : Dominant : SST Subordinate : Shale Aren. 5. Nature of Floor Immediate : Dominant : Shale Subordinate : Shale Aren. 1 m column : Dominant : CSH Subordinate : SST. Argill. 6. Quality Details : The coal seam-III in proposed Harradol block is partly heat affected. The coal having % volatile matter (unit coal basis) (Vmu%) more than 30% is heat unaffected coal and is categorized as medium coking coal. The coal having Vmu% less than 30% is partly heat affected and is categorized as non-coking coal. In proposed Harradol mine, coal having Vmu% less than 18% has not been considered due to mining difficulties.
7. Synoptic Details of Quality of Seam-III (Top) 7.1 Medium Coking Coal : Calculated Proximate analysis on air-dried basis on the basis of weighted averages a) Moisture % 0.3% (MHP-3) – 1.1 % (MKRP-9) b) Ash % 21.8% (MHP-3) – 25.2% (MHP-5)
c) Volatile Matter % 26.4% (MHP-5) – 26.8% (MHP-3) d) Volatile Matter 32.5% (MHP-3) – 33.5% (MHP-5) (unit coal basis) e) Grade W.G.-III (MHP-5, MKRP-5) W.G.-II (MHP-3) 7.2 Non Coking Coal : Calculated Proximate analysis on air-dried basis on the basis of weighted averages e) Moisture % 0.2% (MHP-6) – 1.1 % (MHP-2) f) Ash % 23.1% (MHP-6) – 32.9% (MHP-7) g) Volatile Matter % 12.5% (MHP-7) – 19.5% (MHP-6) h) Volatile Matter 14.7% (MHP-7) – 23.1% (MHP-6) (unit coal basis) e) Grade Grade-‘B’ to ‘D’ f) Total Sulphur 0.52 % (MHP – 1)
3.7 Geological Reserves
Boundary of the Block for Reseves Estimation
The boundary of the block for reserve estimation has been defined as follows :-
North : Bagdeo Fault, F (B) South : Damua Fault, F (D) East : Fault F4-F4 West : Fault F2-F2
Methodology
a) Method of law of gradual change has been adopted from one borehole to another. On this assumption, the iso-chore, iso-grade and iso-vol (Vmu%) lines have been drawn on the seam folio which form the basis for reserve estimation.
b) Separate reserves of the seams have been assessed for the following Volatile Matter (Unit Coal) cut-offs, based on which the coals of seams have been categorized as Medium Coking Coal, Non-Coking Coal and Heat Affected Coal (Jhama).
i) VM/UC% exceeding 30 - Medium coking coal
ii) VM/UC% exceeding 18 - Non-coking coal but not exceeding 30
iii) VM/UC% not exceeding 18 - Jhama (Heat Affected Coal)
c) Reserves have been estimated for in-band thickness and grade only. While delineating the in-band thickness, all the carbonaceous shale band upto 0.30 m thickness have been included in the seam.
The obvious bands (0.05 m and above) however, have been wexcluded while arriving at in-band thickness.
d) The specific gravity of different grades of coal have been deduced as per the formula (misc., pub. No. 58 Jan. 1981-GSI).
i) Medium coking coal Specific gravity = (Ash x0.01) + 1.27
ii) Non-coking coal Specific gravity = (Ash x 0.01) + 1.28
e) The grade of non-coking coal is based on Useful Heat Value (Hu) which has been determined by using the empirical formula
Hu = 8900 – 138 (A % + M %) k.Cal/kg.
Summary of Reserves
A total reserve of 0.525 Mt of medium coking coal and 0.990 Mt of non- coking have been estimated in Seam-III (Top) in Harradol patch. The Vmu % wise coal reserves in Harradol patch is tabulated below :
Summary of Geological Reserves : Seam-III (Top)
Medium Vmu % Net Geological Reserves (Mt)
A) Medium Coking > 30 % 0.525 Coal Sub-Total 0.525
B) Non Coking Coal 18 % - 30 % 0.745 < 18 % 0.245 Sub-Total 0.990
TOTAL 1.515
4.0 MINE BOUNDARIES, RESERVES & MINE LIFE
4.1 Mine Boundaries
The proposed Harradol UG mine has been envisaged in Harradol Patch to extract the coal upto 18 % VMu and hence the southern side boundary of the mine is demarcated by 18 % VMu line. In the northern side, very limited space and reserve is available between minor fault F3-F3 and Bagdeo fault (northern geological boundary fault) and therefore the northern mine boundary has been limited upto the minor fault F3-F3. In the eastern and western side, the geological boundaries considered for reserve estimation are the mine boundaries. Thus, the mine boundaries of proposed Harradol mine are as follows :-
North : Fault F3-F3 and Bagdeo Fault, FB South : 18 % VMu line and Damua Fault, FD East : Fault F4-F4 West : Fault F2-F2
4.2 Coal Reserves
The area lying between fault F3-F3 and Bagdeo fault and the area in southern side of 18 % VMu line of Harradol block have been excluded from proposed mine boundary of Harradol UG mine. After excluding the reserves blocked in these excluded areas and after considering mining losses, the total extractable reserves have been worked out as follows:-
Medium Vmu % Extractable Reserves (Mt) A) Medium Coking > 30 % 0.248 Coal B) Non Coking Coal 18 % - 30 % 0.323 < 18 % NIL TOTAL 0.571
4.3 Target Production and Mine Life
Due to limited extent of the mine, only one district can be worked in the mine. It is proposed to work the mine with conventional Bord and Pillar method of mining.
LHD Loading on Belt Conveyors
In this Option, It is proposed to work one district with 3 nos. of LHDs. Considering LHD productivity as 150 tpd/machine, it is envisaged that 450 tpd will be produced from the mine corresponding to 0.135 Mty production target. The total extractable reserve in Harradol mine has been assessed as 0.571 Mt and with a target production of 0.135Mty, the revenue life works out to 5 years. The total life of the mine including gestation period works out to 8 years.
The production schedule in the proposed Harradol UG mine is as follows :
1 2 3 4 5 6 7 Total
PRODUC- Nil Nil Nil 0.075 0.135 0.135 0.135 0.091 0.571 TION (Mt)
5.0 MODE OF ENTRY
Because of lower capacity and limited life of the mine, a pair of inclines will be sufficient as mode of entry in the proposed Harradol UG mine. It is proposed to locate these inclines at the western end of the property as shown in the Seam Folio Plan. The inclines are proposed to be driven at a gradient of 1 in 4 with a total length of 180m for each incline. The dimension of the inclines is 4.8m x 3.0m.
6.0 MINING STRATEGY
6.1 Surface Constraints on Mine Development
It is proposed in this scheme to acquire 4.85 ha forest land under surface right for mine entries and other surface infra-structure. In addition to requirement of 4.85 ha forest land under surface right, 22.60 ha forest land will be required under mining right in proposed Harradol UG mine for which permission will have to be sought from forest department. Recently, Net Present Value is demanded by forest department for working below the forest land if the tensile strain developed on surface due to mine working exceeds the permissible limit. To ascertain the strain value on surface due to proposed mine working, it has been proposed in this scheme to carry out subsidence prediction analysis by some scientific agency. In absence of subsidence analysis for the proposed area, Capital provision has been made in this scheme for payment of NPV to forest department, compensatory afforestation etc. for the entire 27.45 ha (4.85 ha under surface right + 22.60 ha under mining right). The acquisition of forest land is one of the major surface constraints for mine development.
6.2 Selection of Mining Method
The proposed Harradol mine area is not potential for opencast mining due to higher depth (45m to 200m) and less thickness of coal seam (average 2 to 3 m) resulting into very high stripping ratio. Moreover, the area is totally forest land. Hence, opencast method of mining is totally ruled out for the proposed mine.
Due to very limited extent of mine area and meager coal reserves, the mechanized method of mining like Longwall and Continuous Miner are totally ruled out.
Hence, conventional B&P method of mining with solid blasting at face and mechanized loading has been proposed in this scheme. It is ,therefore, proposed to deploy LHDs to load blasted coal on pony belt conveyor and to transport the coal upto surface through a series of gate and trunk belt conveyors.
6.3 Mine Development Strategy
The proposed inclines will touch the coal seam in the north western side which is dip most point along the trunk roads. Therefore the development in trunk roads will be from dip to rise. Four number of main dip/rise trunk roadways have been proposed from incline touching point in north to southern boundary (18 % Vmu line). After drivage of main dip/rise to some extent, panel gate roads will be developed along eastern side. Only one panel is possible in the mine due to limited area. However, sub-panelling will be done during depillaring depending upon the incubation period of coal. 6.4 Dimension of Pillars & Roadways
Indian Coal Mines Regulations restrict roadway width and height to a maximum of 4.8m and 3.0m respectively. It is proposed in this scheme to make all future roadways of 4.8m width. The height of galleries will be restricted to 3.0m. Indian Coal Mines Regulation define pillar dimension in terms of depth of workings and width of roadways. The same shall be followed in the proposed Harradol mine.
7.0 METHOD OF WORK, MINING SYSTEM & EQUIPMENT
7.1 Level of Mechanisation at Face
Coal Preparation
To ensure the availability of blasted coal to match the loading capacity of LHDs, Universal Drill machines have been proposed for drilling of blast holes as well as for roof bolting. Coal will be prepared by blasting-off-solid using delay detonators and P5 explosives.
Choice of Loading Machine
The gradient of coal seam in the proposed mine varies from 1 in 8 to 1 in 10 , it is proposed to deploy LHDs as loading machines to load the coal on pony belt conveyor.
Support
The roof condition in nearby Nandan-2 U/G mine was not very good and the RMR was about 40. Moreover, wherever the coal is heat affected, the roof condition has been deteriorated. Hence, it is proposed in this scheme to calculate RMR for working panel in Harradol mine and accordingly the support system should be drawn on the basis of calculated RMR for the district. The systematic support rules should be framed and duly approved by DGMS.
As a general guideline, the following support system is proposed for supporting within 10m of development faces, in the galleries which are under permanent use and in geologically disturbed areas.
i) Roof bolting with full column grouted bolts with quick setting cement grout should be done for the support of immediate roof within 10m of the development faces. Four bolts in a row with spacing of 1.2m and 1.0m interval between two rows of roof bolting are proposed for the support of development galleries.
i) All permanent roadways may be supported by rope stitching/roof bolting.
iii) Geologically disturbed areas may be adequately supported by cross bars on cogs or brick walls.
It is very important to monitor the performance of support installed in the mine. Regular use of skilled manpower and scientific instruments for monitoring strata movement should be made a practice.
Ventilation of Development Faces
It is proposed in this scheme that all the development faces in the mine will be ventilated by a system of auxiliary fans and ducts. Sufficient no. of additional auxiliary fans with ducts of adequate length and diameter have been envisaged for development in this scheme. 7.2 Depillaring
The depillaring is proposed to be done by caving method from the farthest eastern end of the panel starting from the mine boundary. Sub-panels will be formed prior to depillaring and the size of sub-panels will depend upon incubation period. The actual incubation period will have to be determined before the commencement of depillaring operation. A diagonal line of extraction should be maintained during depillaring.
Before commencement of depillaring operation, permission is sought from DGMS for the depillaring operation and all the conditions given in such permission should be strictly fulfilled.
Method of Extraction
Two sizes of pillars have been proposed in Harradol mine which are 26m x 26m (upto 150m depth) and 35mx35m (above 150m depth). The manner of extraction of these pillars shall be as follows :
i) Each pillar of size 26m x 26m or 35m x 35m shall be divided into two equal parts by driving one split gallery of maximum 4.8m width.
ii) Each half of pillar (26m x 26m or 35m x 35m) so formed shall be extracted in turn by driving slices of maximum 4.8m width towards the goaf and maintaining a rib of coal not less than 1.80m in thickness against the adjacent goaf. The ribs of coal may be reduced judiciously consistent with safety while retreating from the slices.
iii) The maximum roof area of exposure at any place shall not exceed 90 sq.m.
iv) Driving of a slice shall not commence until extraction in the immediate inbye slice is completed and goaf edge supports erected.
v) Extraction of pillars shall commence from the dip/inbye side and proceed systematically to rise/outbye side maintaining a diagonal line of faces and avoiding formation of “V” in the line of extraction.
Support during depillaring
Systematic support rules should be framed by the Manager for the depillaring panel and then approved by the DGMS. However, a typical support system in the depillaring district with LHD is given as under :
i) Support of Goaf Edge
Cogs shall be set to all goaf edges at an interval of not more than 1.0m and two rows of props shall be set not more than 0.6m apart in between the cogs.
ii) Support of Slices
Props shall be set at a maximum interval of 0.6m towards the solid side of the slice under extraction and cogs and props shall be set alternatively at a maximum interval of 1.2m towards rib side. The distance between rows of props set towards rib side shall not exceed 2.4m, the front row being not more than 2.4m from the face. Cogs shall be set at all entrances to the area under extraction and also at interval of not more than 2.4m. The junctions shall be supported by 6”x3” size girders on chocks and pit propos. Cross bars shall be set as and when required.
iii) Support of Galleries and Splits Props shall be set at a maximum interval of 1.2m in one row. Props and cogs shall be set alternatively at a maximum interval of 1.5m. The distance of the rows of props and cogs set alternatively shall not exceed 3m in all galleries and splits within a distance of two pillars from the pillar under extraction. The support system as mentioned above would provide adequate support density while leaving sufficient clearance for movement of LHD. 7.3 Selection of Equipment
Bord and Pillar method of mining with mechanized loading of coal by normal height LHDs onto pony belt conveyor has been envisaged in the mine. Total 3 Nos. of LHDs have been proposed in the single district of the mine producing 450 tpd. The coal preparation at the face will be done by drilling with Universal Drill Machine and blasting. Solid blasting is the present practice with permitted explosives and delay detonators. After blasting, the coal will be loaded on to pony belt conveyor by LHDs which will be transported upto surface by series of gate and trunk conveyors.
The major equipment proposed in Harradol U/G mine is tabulated below:
Sl. Description of Equipment Quantity No. Existing Additional Total in Area 1. Standard height LHD, 1.5m3 bucket - 3 3 capacity 2. Universal Drill Machine, drilling depth - 3 3 1.8m, 30 kW, crawler track 3. Multishot Exploder - 4 4 4. Trunk Belt Conveyor, 1000mm wide - 2 sets 2 sets 5. Gate belt conveyor, 1000mm wide, - 2 sets 2 sets 400m each 6. Pony Belt Conveyor, 800mm wide, 150m - 1 set 1 set 7. Tugger Haulage, 37 kW - 1 1 8. Endless Haulage 1 (55 1 (37 kW) 2 kW) 9. Direct haulage, 100 kW - 1 10. Main mechanical ventilator 1 - 1 11. Auxiliary ventilator - 2 2
In addition to the above, capital for power supply arrangement, workshop, pumps and pipe fittings, coal handling and dispatch arrangement etc. have been provided in this scheme in both options.
8.0 VENTILATION
Two inclines have been proposed in Harradol UG mine, out of which one will serve as main intake airway and the other as main return airway. The main mechanical ventilator will be installed at the mouth of return incline with air- lock arrangement. Four numbers of trunk roadways have been proposed in the mine to have two intake and two return airways. Only one panel exists in the mine and the number of headings in the panel decrease in the eastern side due to narrow patch. Minimum three intake airways and one to two return airways have been proposed in the panel.
9.0 UNDERGROUND TRANSPORT
LHD loading on belt conveyor
Two inclines have been proposed in Harradol UG mine, out of which one Incline is proposed for coal transport by belt conveyors. Workmen will also move to underground through this incline. The other incline is proposed for return ventilation purpose as well as for material transport by haulages.
The transport system has been divided into face transport, gate transport and trunk transport for coal, material and men. The details are elaborated below:
Face Transport Coal produced at the faces will be loaded directly by LHDs onto pony belt conveyor (P). Pony belt conveyor will be of 800 mm wide and is provided with 55 kW drive.
Gate Transport
Coal from pony belt conveyor will be discharged to a gate belt conveyor. Two gate belt conveyors (GB1 and GB2) working in tandem are proposed in this option. The gate belt will finally discharge coal to trunk belt conveyor (TB2). Both the gate belt conveyors GB1 & GB2 will be 800 mm wide and is provided with 55 kW drive each.
Trunk Transport
Trunk belt conveyor TB2 will receive coal from gate belt conveyor GB1 and discharge on another trunk belt conveyor TB1. TB1 will be installed in incline and surface and will be used to transport coal from underground to surface. TB1 will discharge coal onto an overhead truck loading hopper of 50t capacity (on surface) for storage of coal. All trunk belt conveyors are of 1000mm wide and are designed to carry 200 tph capacity.TB1 and TB2 are provided with 90 kW and 55 kW drive respectively.
Material Transport
A direct haulage of 100 kW will be provided on surface for material transport from surface to incline bottom through the return air incline with air-lock arrangement on top of the incline. For further transport of material in trunk route, endless haulage of 37 kW (I no.) will be used.
Men Transport
Workmen will travel along the belt incline up to incline bottom and then travel along the roads other than haulage roadways.
10.0 COAL HANDLING ARRANGEMENT
Coal from underground will be brought to surface by a trunk belt conveyor TB1. This conveyor will discharge in a 50t capacity overhead truck loading hopper.
Customers’ trucks will be loaded below the hopper with the help of reciprocating feeder provided at the bottom opening of the hopper.Trucks will be weighed on an electronic road weighbridge of 50t capacity.All the equipment in the CHP will operate at 415V, 3 phase, 50Hz. supply. The required power to the CHP will be provided from colliery’s main substation.
11.0 PUMPING AND DRAINAGE
The pumping provision is based on the assessment made in earlier scheme of
Harradol UG mine, prepared by Kanhan Area. Two sumps have been envisaged in the mine. Main sump will collect the total mine water for pumping out to surface. One intermediate sump will be provided in the dip side working of the district, so that water can be pumped to main sump.
Following pumps and pipe fittings have been provided in this scheme :
i) Two 38 lps x 150 m main pump (one working & one standby). ii) One 22 lps x 60 m existing pump will work as auxiliary pump. iii) Three 11 lps x 30 m face pump (Two working & one standby). iv) One delivery range of 150 mm dia. pipe for main pump discharge. v) One delivery range of 150 mm dia. pipe for auxiliary pump discharge. vi) Two delivery range of 80 mm dia. pipe for face pump discharge. vii) No pipes for standby pumps.
12.0 MINE INFRASTRUCTURE
12.1 Land
It is proposed in this scheme to acquire 4.85 ha forest land under surface right for mine entries and various other infrastructures. In addition to this, the total land required under mining right is 22.60 ha which is also entirely forest land. Thus, the total land involved in Harradol UG mine is 27.45 ha forest land and forest clearance from MOEF will be required for this land.
In the absence of Subsidence Study, the strain value on surface due to caving in underground mine is not ascertained and therefore Capital provision has been made in this scheme for payment of NPV to forest department and for compensatory afforestation etc. for acquisition of entire 27.45 ha forest land (4.85 ha under surface right and 22.60 ha under mining right). However, based on the subsidence study, the capital requirement for payment of NPV etc. may change depending upon the strain value on surface.
12.2 Unit Workshop
The temporary unit workshop at mine level will provide basic engineering support in the form of the repairs, maintenance, replacement of minor spare parts etc. The facilities and manpower provided in this workshop would be sufficient enough to cater the routine needs of various underground mining machines operating in the project. Washing, greasing, checking of brake system, hydraulic system etc. would also be undertaken in the unit workshop. Jobs that shall be carried out in the unit workshop shall be in the form of unit
replacement of assemblies or replacement of defective parts.
Major and capital repairs, overhauls, manufacture of critical spares, reconditioning of assemblies and other works of capital nature would be carried out at regional workshop of the area or central workshop at Tadali as per the requirement. As such, unit workshop has been provided with those plant and machineries adequate to support the daily repair and maintenance needs of the project only.
The Unit Workshop would have the following facilities:
i) Machine shop ii) Underground mining equipment repair shop iii) Electrical equipment repair shop iv) Carpentry shop v) Smithy shop
The workshop is provided with all the necessary plant and machineries, accessories, tools, tackles, diagnostic and testing equipments etc. so that repair cum maintenance needs of the production machines may be fulfilled efficiently.
The schedule of activities to be performed in the unit workshop would comprise of the following works:
i) Cleaning, inspection and checks of mining machineries/sub assemblies ii) Daily lubrication, greasing, incidental minor repairs and adjustments iii) Replacement of leaky hoses, tubes, deteriorated tubes, fittings etc. iv) Welding of CHP structures, coal tubs, cracked frames etc. v) Structural fabrication of minor nature vi) Tightening/replacement of fan drives, belts, nut/bolts etc. vii) Machining operations to produce minor components and rebuilt components viii) Incidental minor repairs of switchgears, meters, self-starters etc. ix) Rewinding of small motors x) Routine/schedule maintenance of various mining machineries xi) Scheduling of major overhauls that are required to be carried out in regional/central workshop xii) Repairs/maintenance of motors, transformers, switchgears, dynamos, gate end boxes and other of mining machines and CHP equipments
xiii) Smithy and carpentry works as per requirement
The above detailed activities are not specific. Other works may also be undertaken in the Unit workshop, which may be incidental in nature to fulfill the basic objective of achieving the production targets of the mine.
12.3 Unit Stores
A small but independent unit stores has been envisaged to cater the routine needs of consumables, spares, POLs, etc of the mine. Unit stores shall have the backing of the area stores and central stores for its smooth functioning.
13.0 SAFETY AND CONSERVATION
13.1 General
This scheme has been drawn up keeping all the safety aspects in view.
13.2 Gassiness
- After touching the coal seam in Harradol UG mine, the gassiness of the seam should be determined by conducting Gas-Survey. Thereafter, regular gas survey should be carried out as per statute. If the change in gassiness is noticed, the provisions have to be modified accordingly.
- Adequate provision for self rescuers has been made to enable everybody to carry it underground.
- Stone dust barriers have to be provided as per statute.
- Provision has been made in the report for Methanometer & other appliances related with mine environment for regular monitoring of methane in the mine.
- Development should be done by using auxiliary fans for providing adequate quantity of air upto the faces.
- A geological plan should be maintained from the initial stage of mine development showing all the faults and other geological disturbances likely to be met during the course of development
and up-dated regularly. Gas survey should be conducted immediately after encountering of faults and emission of CH4 should be monitored regularly to take precautions against accumulation of inflammable gas in the working faces.
13.3 Inundation
- On the northern and southern side of the proposed Harradol UG mine area, water logged goaf of Bansi and Rakhikol colliery exists. In order to obviate the possibility of entry of water in the proposed workings through the fault plane, a solid coal barrier should be left against the faults. Hence, it is suggested that while driving, utmost care should be exercised so that coal barrier of at least 60 m is left against the fault plane and this barrier should not be punctured. Advance boreholes and other necessary precautions laid under the statute should be strictly observed. One UG safety boring machine has been proposed in this scheme which should be deployed for drilling advance boreholes particularly while working near water logged area.
- It is well known fact that the prospecting boreholes can be a source of danger, because later on these get connected with u/g workings. Therefore, it is of paramount importance that these boreholes do not get connected with U/G galleries. In case some boreholes do get connected, these should be suitably plugged preferably with cement grout. The boreholes from the surface should also be suitably plugged, so that water from the surface does not find its way through these boreholes.
- A careful assessment of the danger of inundation from surface water should be made before the onset of every rainy season & adequate precautions against such danger should be clearly laid down & implemented.
- During rainy season, blockage of river, Jore, nallah or stream may occasionally occur on the upstream. It is therefore necessary to keep a constant watch on the upstream of river/nallah & take suitable precautions.
13.4 Dust Suppression
- The most effective method of dust suppression is to suppress the dust at the source of generation, before the dust becomes airborne. Arrangement for dust suppression in the form of water spraying has to be provided at all working faces and transfer points in conveyor systems.
- For monitoring the level of dustiness and quality of dust, regular sampling and analysis of mine dust has to be done as per statute.
13.5 Spontaneous Heating
The following precautions are suggested to avoid occurrence of fire or spontaneous heating.
- The extraction of pillars would commence from the proposed limit of the mine or from the natural barriers created by faults.
- Preparatory stoppings shall be kept ready at the outbye end of the sub-panel so that in case of outbreak of any U/G fire, the sub-panel can be abandoned & sealed off by constructing fire stoppings in the minimum possible time.
- Before commencement of depillaring operation, all the inflammable material should be cleaned and removed from the face.
- Every panel must be quickly & effectively sealed off by isolation stoppings after completion of extraction & salvaging of material from all the sub-panels.
- Since caving method of mining has been proposed, cracks may appear on the surface. Therefore, efforts have to be made to seal-off the cracks, so that air & water does not enter in the goaf through these cracks.
13.6 Roof Control
In the neighbouring mines, the roof condition is fair and it becomes poor in heat affected zone of coal seam. In proposed Harradol UG mine also, the coal reserves are partly heat-affected. To determine the support requirement vis-à-vis the strata condition in the mine, Rock Mass Rating (RMR) of the roof strata must be determined for the seam. The mine management shall prepare systematic support rules (SSR) on the basis of findings of RMR and get the same approved by DGMS before adopting the same for implementation in the mine. The setting of additional supports will be dictated by prevailing geo-mining conditions.
It is suggested that monitoring of roof movement should be carried out regularly and based on the analysis of roof movement data, the roof bolting pattern would change.
13.7 Subsidence
Caving is proposed as method of extraction in this scheme. The depth of the workable seam in boreholes varies from minimum 76m to maximum about 200m. The surface topography is rugged and difficult flat and is covered with forest. It is proposed in this scheme to conduct Subsidence Prediction Study in the proposed mine area to predict subsidence on the surface and likely impact on surface features. In the forest area, if tensile strain is more than
permissible limit, NPV (Net Present Value) of the affected forest land is required to be paid to the forest department. In absence of Subsidence study in the proposed mine area, capital provision for the payment of NPV for the entire mine area (27.45 ha)has been made in the scheme.
Subsidence cracks may appear on the surface during caving where depth cover is less. It is proposed to fill these cracks by properly ramming incombustible material. Additionally, constant monitoring of such area, especially during monsoon is suggested to avoid entry of water through these cracks. Drainage channels may be made so as to guide the water away from such subsided area.
It is recommended that while carrying out extraction, close subsidence monitoring should be done, particularly in the area nearby the nallas.
13.8 Scientific Study
It is necessary to undertake the following scientific studies for proper implementation of this scheme.
- To undertake subsidence prediction study to ascertain the amount of subsidence and tensile strain on surface in the proposed mine area. In forest land, determination of tensile strain is important in order to calculate NPV to be paid to forest deptt. in case strain value is more than permissible limit
- To undertake determination of `Rock Mass Rating’ for preparing the support plan so that systematic support rules could be framed.
- To undertake gas survey study to re-assess the gassiness of mine in the expansion area.
- To undertake Pressure Quality Survey for installation of higher size fan to take increased load of ventilation.
14.0 ENVIRONMENTAL MANAGEMENT PLAN
14.1 Introduction
Proposed Harradol UG mine is located in western side of Rakhikol colliery of Kanhan Area of WCL. A detailed Environmental Management Plan will be prepared based on this Scheme. In the subsequent paragraphs an attempt has been made to assess the likely environmental impacts due to proposed mining activities.
14.2 Impact on Land
The total land base for the proposed Harradol mine area is 27.45 ha (4.85 ha under surface right and 22.60 ha under mining right), which is totally forest land.
It is proposed in this scheme to approach the coal seam through a pair of inclines. Various infrastructures like inclines, haulage room, sub-station, pit office, Manager’s office, workshop, store, etc. are proposed adjacent to the inclines and for this 4.85 ha forest land will be acquired under surface right. In addition to this, it is proposed to acquire the entire mining area (22.60 ha) under mining right.
Underground mining with caving has been proposed in Harradol mine and therefore a subsidence prediction study has been proposed to assess the subsidence on surface due to underground mining and its impact on surface features like nalla, forest land etc.
14.3 Impact on Air-quality
Ambient air quality monitoring at nearby Nandan UG mine has been done during Jan.06-Dec. `06 at three locations. Micro-meteorological data was also generated in pre-monsoon season.
The pre-dominant wind direction during summer season was from West. Calm period was 35.82%.
From the monitoring results it is seen that the values of SPM was recorded in the range of 339.2 to 41.2 micro gram/m3 and RPM 184.3 to 18.6 micro gram/m3 respectively in the actual mining activity area whereas the same for SO2 & NOx were recorded as BDL (value < 6 micro gram/m3). All these recorded values are well below the threshold limits specified by CPCB.
So far as the proposed U/G mining activities at Harradol UG mine are concerned, it is anticipated that levels of various air pollutants will be well under limits. However, only potential air pollutant will be SPM/dust. During day to day operation at the mines, adequate control measures like water spraying, green belt development, regular cleaning of coal transportation road etc. will be adopted so as to minimise generation & propagation of dust. Detailed control measures will be discussed in the EMP.
14.4 Impact on Water Quality
The analysis results of mine effluent are as under:
It has been observed from the analysis report that pH value was ranging from 6.77 to 7.71, TSS from 20 to 82 mg/lit, COD from 30 to 120 mg/lit and O&G < 1 mg/lit respectively. Thus it can be concluded that existing mine effluent does not carry significant pollution load so as to affect
the natural watercourses adversely after mixing.
It is anticipated that same scenario will hold good for proposed Harradol UG mine also. However, due control measures will be taken to arrest further water pollution from the proposed mine.
Mine effluents will be passed through a sedimentation tank and then utilized at Nandan Washery. Regular monitoring of effluent quality will be carried out and if any undesirable element is detected, immediate corrective measures will be taken.
14.5 Impact on Noise Quality
In order to assess the likely level of noise during actual mining at the proposed mine site, references have been taken from the ambient noise monitoring data, collected in the mine premises of existing Nandan-2 UG which indicated values of 60.6 to 74.3 dB(A) during day time & 51 to 73.8 dB(A) during night time. All the recorded values are well below the permissible limit as per EPA'2000.
Therefore, it is anticipated that ambient noise level in the mine area of proposed Harradol UG mine will be well under tolerance limit. However, regular ambient noise level monitoring will be carried during actual mining so as to identify the risk zones and this will help mine operators to take preventive actions at appropriate time and place if needed.
15.0 MINE CLOSURE
15.1 Objective of Mine Closure
Mine closure planning has to be done at the starting point of the mining operations and needs periodic reviewing and revision during its life cycle to cope with the market due to geo-technical constraints, safety and economic risks, social & environmental challenges. Various other objectives are as follows:
a) To allow a productive and sustainable after-use of the site which is acceptable to the mine owner and the regulatory authority.
b) To protect public health and safety.
c) To alleviate or eliminate environmental damage and thereby encourage environmental sustainability.
d) To minimise adverse socio-economic impacts.
15.2 Mine Closure Obligations
There is a need to define the liabilities, responsibilities and authorities of the mine management, other regulatory bodies, Central and State Governments after mine closure. Some obligations relating to the Mine Management Companies are as follows :
Legal
a) Health & Safety
Regulations 6, 61, 68, 106, 112 of Coal Mines Regulation, 1957 and its related DGMS Circulars.
b) Environment
1. Water (Prevention and Control of Pollution Act), 1974 2. Air (Prevention and Control of Pollution) Act 1981 3. Environment (Protection) Act, 1986 and Environment Protection Rule. 4. DGMS Directives on noise and ground vibration.
c) Forest - Forest (Conservation) Act, 1980
d) Rehabilitation
e) Decommissioning/asset disposal, etc.
15.3 Existing Environmentla Data & Socio Economic Details
This information has already been detailed out in Para-14 on Environmental Management.
15.4 Impact Assessment Remedial Measures
Environmental impact on landscape, water source, air and noise pollution during mine life and Environmental Control Measures have been detailed in Environmental Management chapter. It is imperative that environmental monitoring may be continued for 5 years after closure of mine to assess corrective measures to be implemented to sustain pre-mining ecosystem and environment in the core and buffer zone as far as practicable.
15.5 Closure Action Plan
Closure planning is a whole-of-life exercise that begins at the start of a mine and continues till post closure. The dynamic nature of closure planning requires regular and critical review to reflect changing circumstances as a result of any operational change, new regulation, new technology and remain flexible enough to cope with unexpected events.
Following steps have to be undertaken in relation to Mine Closure Planning:
a) Prior to the surface demolition/restoration, a surface audit should be undertaken on all surface structures, to assess whether there are any hazardous materials that could cause problems viz; explosives, chemicals, etc. A list of surface assets should be prepared and made available to potential purchasers, prospective purchasers could be invited and asked to submit sealed bids. This could ensure that the sale of assets give better financial gain.
b) In order to identify potential impact, necessary hydrogeological studies into post-mining groundwater recharge has to be done.
c) As a detailed component of the Closure Plan, a Decommissioning Plan is to be developed towards the final stages preferably 5 years prior to tentative closure of mine. Once established it may be updated annually.
15.6 Protective Measures to be Taken
Protective measures must include the following :
a) Closure of all mine entering including Inclines.
b) The protection of mine boundary, buildings and other structures on the project site against access by unauthorised persons.
c) The maintenance of all mechanical, hydraulic and waste management system.
b) The continuation of all monitoring programs.
e) The control of all contaminated effluents.
f) The securing of all petroleum products, chemicals and waste.
g) The rendering of piles of earth, rock and waste resulting from work done on the project site in a stable and safe condition.
15.7 Closure Cost
In the proposed Harradol UG mine, the expenditure incurred on those mine closure activities which are done during mine life are met through the revenue of the mine.
It has been decided that a corpus fund will be made at corporate level for implementing the mine closure planning and a revenue cost of Rs. 1.00/t of target production will be charged on the project for this fund. In proposed Harradol UG mine also, mine closure cost @ Rs. 1.00/t has been taken.
16. CONCLUSION:-
In view of the above, Public hearing for proposed Harradol UG project, Tahsil – Junardeo Dist. – Chhindwara of Madhya Pradesh State for production capacity of 0.135 MTPA with land area of 27.45 ha may be conducted as per EIA Notification 2006.
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