Risk: Medium Gas Power Plant Operational

JERA Hitachinaka Power Station: Gas Power Plant in Hitachinaka, Japan

Thermal power plant, Japan
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Overview

JERA Hitachinaka Power Station is an operational gas-fired power plant in Japan. Located in Hitachinaka, Ibaraki Prefecture, it contributes to the country's thermal power generation capacity.

JERA Hitachinaka Power Station is a gas-fired power plant located in the Thermal power plant area of Hitachinaka, Japan. The facility is operational and plays a role in Japan's power generation sector, which relies heavily on thermal sources including natural gas. As a gas power plant, it operates under Japan's regulatory framework for thermal power generation, which includes emissions standards for SOx, NOx, and CO2. The plant's technology likely incorporates combined cycle gas turbine (CCGT) efficiency, common in modern Japanese gas plants. Japan's energy policy emphasizes fuel diversification and efficiency improvements. The station serves the local grid and supports Japan's energy needs. Its location in Ibaraki Prefecture places it near industrial and urban demand centers. The plant's operational status indicates ongoing contribution to the region's electricity supply.

Environmental context

The plant's gas-fired technology typically produces lower CO2 emissions per MWh compared to coal, but still contributes to greenhouse gas emissions. Its location near populated areas may require adherence to local air quality standards. Modern gas plants in Japan often employ high-efficiency CCGT to reduce environmental footprint.

Frequently asked questions

JERA Hitachinaka Power Station is located in the Thermal power plant area of Hitachinaka, Ibaraki Prefecture, Japan.

It is a gas-fired power plant, which typically uses natural gas to generate electricity, often through combined cycle gas turbine technology.

Yes, the facility is currently operational and contributes to Japan's power generation capacity.

Gas power plants in Japan must comply with national emissions standards for SOx, NOx, and CO2, as well as energy efficiency requirements under the country's energy policy.

As a gas plant, it produces lower CO2 emissions per MWh than coal plants, but still contributes to greenhouse gases. Its environmental impact depends on technology and emission controls.
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