Overview
Shenzhen Baoan Laohukeng Stage 2 is a 60 MW gas-fired power plant in Shenzhen, China. It is operational and contributes to the region's power generation capacity.
Shenzhen Baoan Laohukeng Stage 2 is a gas-fired power plant located in Shenzhen, Guangdong Province, China. With a capacity of 60 MW, it is a relatively small-scale facility within China's vast power generation sector. The plant is operational and plays a role in meeting local electricity demand. The plant operates on natural gas, a cleaner-burning fossil fuel compared to coal. In China, gas-fired power plants are subject to national emission standards and are often used for peaking or district heating. The technology is typically combined cycle gas turbine (CCGT) for efficiency, though specific configuration for this plant is not detailed. As part of Shenzhen's energy infrastructure, this plant supports the city's rapid industrial and urban growth. Gas power plants like this one help balance the grid and reduce reliance on coal, contributing to China's efforts to improve air quality and lower carbon intensity in the power sector.
Environmental context
Gas-fired power plants emit lower levels of CO2, SOx, and NOx compared to coal plants, but still contribute to greenhouse gas emissions. Located in Shenzhen, a densely populated and industrialized city, the plant's emissions may affect local air quality. Its relatively small capacity limits its overall environmental footprint, but it operates within China's regulatory framework for emission controls.
Frequently asked questions
Shenzhen Baoan Laohukeng Stage 2 is located in Shenzhen, Guangdong Province, China.
It is a gas-fired power plant, using natural gas as its primary fuel.
The plant has a capacity of 60 megawatts (MW).
Gas power plants in China must comply with national emission standards for air pollutants, including limits on SO2, NOx, and particulate matter, as well as carbon intensity targets under China's climate policies.
As a gas-fired plant, it provides flexible power generation that can help balance the grid, especially during peak demand periods, and supports the integration of renewable energy sources.