SIMULATION OF HOT WATER INJECTION AS AN ALTERNATIVE FOR HANDLING MINE WASTEWATER AT PT XYZ
Protecting the environment is an important commitment for mining companies in running their business, one of which is ensuring that wastewater from mining activities meets environmental quality standard in accordance with applicable regulation. PT XYZ is a gold mining company operating on Sulawes...
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| 主要作者: | |
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| 格式: | Theses |
| 語言: | Indonesia |
| 在線閱讀: | https://digilib.itb.ac.id/gdl/view/81251 |
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| 機構: | Institut Teknologi Bandung |
| 語言: | Indonesia |
| 總結: | Protecting the environment is an important commitment for mining companies in
running their business, one of which is ensuring that wastewater from mining
activities meets environmental quality standard in accordance with applicable
regulation. PT XYZ is a gold mining company operating on Sulawesi Island. The
mining area is in a volcanoc area which is a geothermal prospect area. One of the
mining pits (Pit A) has hot water coming out with a temperature of >70oC and a
discharge of up to 1000 liters/second. The hot water comes out becomes wastewater
which cannot be directly released into water bodies because it does not meet quality
standards. The mine wastewater must be treated to reduce the levels of arsenic,
boron, chloride, total dissolved solid (TDS) and temperature if it is to be released
into a nearby river, while release into the sea only requires a decrease in
temperature. Another option is to return this wastewater to groundwater flow by
injection. The treatment currently carried out uses the mixing pond and cooling
circuit method before being released into the sea. The methods require a large area
to provide infrastructure, while mining also requires land expansion. As mining
progresses, the mine openings become larger and the discharge of water that comes
out will be greater, so injection needs to be considered. This study was carried out
to get an estimate of the hot water discharge that will come out as the mine openings
become larger and an initial picture of the location that will be targeted for injection.
From the field test data that has been carried out previously, calculation and
simulations using the finite difference method with the help of MODFLOW
software, it is obtained that the estimated water discharge can reach 2000
liters/second and the recommended injection location is on the north side of Pit A
with a minimum distance of 2 km from the final pit design. It is hoped that the
results of this research can be used as a reference for further research before this
injection is chosen and implemented.
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