Overview
Shanxi Liulin Coal Mine Methane is a 12 MW gas power plant in Shanxi, China. It generates electricity from coal mine methane, reducing greenhouse gas emissions.
Shanxi Liulin Coal Mine Methane is a gas-fired power plant located in Shanxi Province, China, with a capacity of 12 MW. The plant utilizes coal mine methane as its primary fuel, converting a potent greenhouse gas into electricity. This small-scale facility plays a role in the region's energy mix while addressing methane emissions from coal mining. The plant operates under China's national emission standards and energy policies, which increasingly emphasize the utilization of coal mine methane for power generation. As a gas power plant, it benefits from relatively lower emissions compared to coal-fired plants, though its small capacity limits its overall impact. The technology likely involves internal combustion engines or gas turbines suited for methane recovery. By capturing and using coal mine methane, the plant contributes to local environmental improvements and energy efficiency. It supports Shanxi's coal industry by reducing waste gas emissions and providing a supplementary power source. The facility's operational status indicates ongoing contribution to the regional grid and methane mitigation efforts.
Environmental context
The plant's use of coal mine methane reduces methane emissions, a potent greenhouse gas, while generating electricity. Located in Shanxi, a coal-rich province, the facility helps mitigate local air quality impacts associated with coal mining. Its small capacity limits its environmental footprint, but the methane capture provides a net climate benefit.
Frequently asked questions
The plant is located in Shanxi Province, China, at coordinates 37.0807 N, 110.373 E.
The plant has a capacity of 12 megawatts (MW).
It uses coal mine methane, a gas captured from coal mining operations.
Gas power plants in China must comply with national emission standards for air pollutants, including limits on SO2, NOx, and particulates, as well as energy efficiency requirements.
It captures methane that would otherwise be released into the atmosphere, reducing greenhouse gas emissions, while generating electricity with lower carbon intensity than coal.