International Vision Zero Conference on OSH

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Barbara Rodgers
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1 International Vision Zero Conference on OSH 15 th - 17 th March-2017 Vigyan Bhawan - New Delhi

2 The Singareni Collieries Company Limited (A Government Company) Deep Underground Mine Environmental Issues A case study for Improving Safety & Health of Employees in SCCL N Sridhar, IAS, Chairman & Managing Director A Manohar Rao, Director (Planning & Projects) K Sugunakar Reddy, Chief General Manager K Guruvaiah, General Manager

3 The outline Introduction of SCCL. Safety & Health of employees Issues of deep underground mining. Improvement of environmental conditions Conclusions

4 Pranhita-Godavari Valley Coal Field 4

incorporated in England acquired mining rights in

Christened as The Singareni Collieries Co. Ltd.

Since 1945 it became a Government company as The

5 History of SCCL Dr. William King of GSI discovered coal deposits near Yellandu in Khammam district in The Hyderabad (Deccan) Company Limited incorporated in England acquired mining rights in Mining coal since Christened as The Singareni Collieries Co. Ltd. on 23 rd December, Since 1945 it became a Government company as The Nizam of Hyderabad acquired the shares. From 1960, the GoI has become equity partner along with GoAP. Sir William King CHP Power Plant

Naini coal block LOCATION & EXTENT 1 2 3 4 SCCL Godavari

Districts of Telangana State 5 6 1. Kumram Bheem, 2.

6 Naini coal block LOCATION & EXTENT SCCL Godavari Valley Coal Field Stretched over a length of 350 Km along 6 Districts of Telangana State Kumram Bheem, 2. Mancherial, 3. Peddapalli, 4. Jaya Shankar, 5. Bhadradri & 6. Khammam District

7 SCCL at a glance. SCCL is contributing 9.5 % in the all India domestic production Presently, operating 47 Mines: 30 Underground & 17 Opencast Spread in 6 districts of Telangana State Manpower as on : 56,658 Proved coal reserves is 10,128 MT (as on ) Since inception (1889) extracted 1,280 MT coal Produced MT coal and Excavated 311 MCM of OB during Operating captive power plant, recently commissioned 2x 600MW capacity thermal power plant 7

Performance last 5 years Indicators Unit 2011-12 2012-13 2013-14 2014-15 2015-16 Production Off-take Million Tonnes Million Tonnes 52.21 53.

8 Performance last 5 years Indicators Unit Production Off-take Million Tonnes Million Tonnes OB Removal Million Cu. M OMS Tonnes

9 Introduction SCCL has been pioneer in mechanization: 1937 Coal Drill Machines 1950 Shuttle Cars, Gathering Arm Loaders, Conveyors and Coal Plough 1975 Shovels and Dumpers 1979 Side Discharge Loaders 1981 Road headers & Load Haul Dumpers 1983 Long-wall 1986 Dragline 1989 Blasting Gallery 1994 In-pit crushing and conveying 2002 Surface Miner 2006 Continuous Miners 2010 High-wall Mining 2014 High Capacity Long-wall (2.817 mtpa)

10 SCCL Technology-wise Production (LT) Hand Section Machine Mining Longwall Opencast 10

11 Challenges specific to SCCL Geology :- Not feasible for L/W mining. Clay bands in coal seams: challenges of strata management. Poor Quality of coal limiting investments. Economical considerations in introduction of belt conveyors. Aging work force:76% of around 58,000 employees strength. Steep gradient of seams degrees.

12 Steps taken for improvement. Phasing out the manual loading by LHD s & SDL s. Continuous Miner Technology in feasible areas. Blasting Gallery method for extraction of thick seams. Long-wall technology was for bulk production. Roof bolting by mechanical bolters with Resin. Men transport systems in U/G mines to reduce fatigue and haulage safety (Chair lift systems, Rail car systems and diesel operated mine cruisers).

13 Steps taken for improvement. Higher Capacity open cast mines. HEMM to reduce the fleet in Inert gas systems (N 2 & CO 2 ) for prevent heating Air-cooling systems in needy mines to improve workplace environment. Involving national and global Scientific and Academic institutions like CIMFR, NIRM, ISM, IIT's, NIT's, and CSIRO in design and planning. Training by global institutions to enhance SMP. World class Rescue services to reduce losses.

14 Safety status AVERAGE (5 YEARS )TREND OF FATAL ACCIDENTS IN SCCL PERIOD ACCIDENTS RATE/MILLION TONNE RATE/3 LAKH MANSHIFTS RATE/1000 MEN ON ROLL FA F F F F FA=Fatal accidents; F=Fatalities;

15 Safety status CAUSE-WISE -MAJOR CONTRIBUTORY FATAL ACCIDENTS IN SCCL FOR FIVE YEARS. CAUSE ROOF FALL SIDE FALL ROPE HAULAGE

16 Health status AVG. NATURAL DEATHS WHILE ON DUTY IN SCCL YEAR AVG. NO. OF NATURAL DEATHS PER YEAR

17 80 70 FATAL ACCIDNETS TREND 69 SINCE ROOF FALL ROPE HAULAGE SIDE FALL

18 Future plans on S & H Implementation of of the employees. health monitoring data base Introduction of slope monitoring radar in deep O/C mines. Planning for introduction of bulk production technologies. Up grading the employees skills by improved training methods. Quality PPE s to prevent injuries to phalanges.

19 Issues of deep underground mining Deep U/G mining will have the additional challenges such as difficult geo-mining and adverse environmental conditions. Current operating depth and extent of U/G mines in SCCL is m & km. Planned for 720m depth in near future. Envisaged for 1200m. Shift to high production technologies like Continuous Miners & Long-wall.

20 Issues of deep underground mining Heavy mechanization with face machines up to 8MW and large network of conveying systems up to 10MW installed power. High capacity machines, geo-mining conditions and faster extraction add substantial heat to working environment apart from heavy inrush of inflammable gases, hot water and dust. Majority of heat load to mine air in deep mines is due to rock temperature, machinery and mine water.

21 Issues of deep underground mining In SCCL, VRT is about C at 720m depth. Comfortable and productive mining requires optimum temperature below C. Comfort at workplace requires substantial increase of air flow rate by eliminating heat sources or separating ventilation. Limitations to improve comfort by increasing air flow rate requires to adopt artificial cooling arrangements of mine air.

22 Mines with high mechanization. VK. No.7 Incline Continuous Miner 4.0 LPTA 2006 GDK. No.11 Incline Continuous Miner 4.0 LPTA 2008 Adriyala Longwall Project Longwall LPTA 2014

23 Improvement of environmental conditions VK. No.7 Incline: Main Mechanical Ventilators : 225kW, 120m 3 /s 150kW, 60m 3 /s Air-cooling System (u/g) : 500 RT (to reduce temp. of 50m 3 /s air quantity from 33 0 C to 25 0 C in Continuous Miner workings) N 2 Generator : 800m 3 /h Cryogenic CO 2 Storage : 30 tones

24 Chillers location Continuous Miner workings

25 WATER COOLED CHILLER UNIT OF UNDERGROUND AIR COOLING SYSTEM INSTALLED AT VK No.7 INCLINE

26 Schematic lay out of the Air-cooling System Make up water P E C C Condenser Water P RG OC-II W ALP Entries from Highwall Chilled Water Mine Airway AHU C: Chiller Compressor/Condenser E: Evaporator P: Pumps AHU: Air Handling Unit

27 Improvement of environmental conditions GDK. No.11 Incline: Main Mechanical Ventilators : 2 x 225kW (parallel operation) 280m 3 /s Air flow in Continuous Miner workings is 75-85m 3 /s to maintain work place comfort and to dilute the exhaust gases of diesel powered Ram-cars. N 2 Generator : 800m 3 /h Cryogenic CO 2 Storage : 30 tones

29 Improvement of environmental conditions Adriyala Longwall Project: Main Mechanical Ventilator : 400kW, 180m 3 /s Air-cooling System (surface) : 1200 RT (to reduce temp. of 50m 3 /s air quantity C at surface to have temp. less than C in Long wall face) N 2 Generator : 1800m 3 /h Cryogenic CO 2 Storage : 30 tones.

30 VENTILATION PLAN OF ADRIYALA LONGWALL PROJECT ALP Entries from Highwall

31 Ventilation network model of Adriyala Longwall Project RG OC-II ALP Entries from Highwall

32 VENTILATION SCHEMATIC OF ADRIYALA LONGWALL PROJECT Punch Entries 185 m 3 /s UC PE m 3 /s 130mmwg 400kW Fan ALP Entries from Highwall 50 m 3 /s TG-1 70 m 3 /s MG-1 BF TG-2 Energy Centre 20 m 3 /s 50 m 3 /s LW FACE Control Centre 45 m 3 /s RH-1 MG-2 TG-3 BF 45 m 3 /s 40 m 3 /s BF: Booster Fan RH: Roadheader RH-2 Poty 15 m 3 /s

33 Air-cooled Chillers installed at Adriyala Longwall Project

34 Air Handling Units installed at Adriyala Longwall Project

35 Ducts discharging chilled air in one of the entries at Adriyala Longwall Project

36 Conclusions In deep U/G mining, Planning and introduction of bulk production technologies is mandatory to increase safety, productivity and economy. High mechanization at greater depths have difficult geo-mining conditions, ambient environmental issues etc... Increasing capacity of mine ventilation systems & introduction of Air-cooling systems, inert mechanisms to improve work place env. Conditions for safety and economics. Improving work place environment also enhances the health of employees.

37 Authors are very much thankful to the management of the SCCL for permitting to publish this paper and to use certain data for presenting in this paper SCCL is thankful to: The Ministry of Labour & Employment (GoI), DGMS, and Directorate General Factory Advice Service & Labour Institutes. DGUV (German Social Accident Insurance) issa (International Social Security Association)

38 Thank you