Overview
Jiangyin Sulong power station is a 1214 MW coal-fired power plant in Jiangyin, China, operated by China Guodian Group Corporation. It plays a key role in the regional power grid.
Jiangyin Sulong power station is a coal-fired power plant located in Jiangyin, Jiangsu Province, China. With a capacity of 1214 MW, it is a large-scale facility within China's extensive coal power fleet, contributing to the country's energy mix and industrial development. The plant operates under China's national emission standards, which include stringent limits for SO2, NOx, and particulate matter. As a coal-fired unit, it likely employs technologies such as flue-gas desulfurization and selective catalytic reduction to meet these requirements. The facility is owned by China Guodian Group Corporation, one of the major state-owned power generation enterprises in China. Environmental considerations for this plant include its carbon footprint from coal combustion and its location in a densely populated region. The plant's output supports local industries and residential needs, but also contributes to regional air quality challenges. Ongoing regulatory efforts aim to balance energy demand with environmental protection.
Environmental context
The plant's coal fuel source results in significant CO2, SOx, and NOx emissions, typical for this sector. Its location in Jiangyin, a city in the Yangtze River Delta, places it in a region with high population density and industrial activity, increasing local air quality concerns. Older subcritical units generally have lower efficiency and higher emissions per MWh.
Frequently asked questions
Jiangyin Sulong power station is located in Jiangyin, Jiangsu Province, China.
The plant has a capacity of 1214 megawatts (MW), making it a large-scale coal-fired power station.
The plant is owned by China Guodian Group Corporation, a major state-owned power generation company in China.
Coal power plants in China must comply with national emission standards for SO2, NOx, and particulate matter, often requiring technologies like flue-gas desulfurization and selective catalytic reduction.
Efficiency depends on technology; subcritical plants typically achieve 33-37% efficiency, while supercritical and ultra-supercritical plants can reach 40-45% or higher.