ANALYSIS OF UNDERGROUND GOLD MINE FIRE EMERGENCY SIMULATION ON VENTILATION SYSTEM USING VENTSIM DESIGN 6.0 SOFTWARE
Underground mine fires are a significant hazard that can threaten the safety and continuity of mining operations. This study aims to determine the impact of ventilation systems and ventilation doors on fire scenarios in an underground gold mine. The fire locations considered are the haulage route...
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| Format: | Final Project |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/85362 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | Underground mine fires are a significant hazard that can threaten the safety and
continuity of mining operations. This study aims to determine the impact of
ventilation systems and ventilation doors on fire scenarios in an underground gold
mine. The fire locations considered are the haulage route, caused by a diesel engine
Light Vehicle (LV), and DD04, caused by a 110 kWh electric drill. The fire
simulations lasted for one hour and were not conducted simultaneously at both
locations. The HRR generated by the diesel engine vehicle and the electric drill
were 1454.33 kW and 4554.61 kW. Simulation results using Ventsim Design 6.0
software indicate that scenarios involving deactivating the ventilation system and
closing ventilation doors during a fire can result in significant increases in
temperature and carbon monoxide gas levels at the fire location. The maximum
temperatures in the haulage route and DD04 when the ventilation system was
turned off were 288.38°C with an HRR of 1352 kW and 318.32°C with an HRR of
4395.45 kW. In these simulations, the HRR produced was lower because the air
supply to the vicinity of the fire scenario was more limited without sufficient
ventilation. The forcing ventilation system increased the heat release rate to
4944.11 kW and resulted in lower temperatures. Based on the simulation results,
factors influencing the temperature in fire scenarios is quantity of fuel. HRR is
influenced by the amount of oxygen provided by the existing ventilation system. |
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