The Yeoju CCGT Power Plant is 1,000MW gas fired power project. It is planned in Gyeonggi, South Korea. The project is currently in permitting stage. It will be developed in single phase. Post completion of the construction, the project is expected to get commissioned in July 2022.

Project Type Total Capacity (MW) Active Capacity (MW) Pipeline Capacity (MW) Project Status Project Location Project Developer
Thermal 1,000 1,000 Permitting Gyeonggi, South Korea Yeoju Energy Services

Description

The project is being developed and currently owned by Yeoju Energy Services.

It is a combined cycle gas turbine (ccgt) power plant.

The project cost is expected to be around $717.082m.

Development Status

Post completion of the construction, the project is expected to get commissioned in July 2022.

Contractors Involved

SK Engineering & Construction is expected to render EPC services for the gas fired power project.

Siemens Energy will be the turbine supplier for the Gas fired project. The company is expected to provide 2 units of SGT6-9000HL gas turbines, each with 333MW nameplate capacity.

Siemens Energy will be the turbine supplier for the Gas fired project. The company is expected to provide 1 unit of SST6-5000 HI-L steam turbine with 334MW nameplate capacity.

Siemens Energy is expected to be the supplier of SGen6-2000P electric generator for the project.

Siemens Energy is likely to be the supplier of steam boiler for the project.

Methodology

All power projects included in this report are drawn from GlobalData’s Power Intelligence Center. The information regarding the project parameters is sourced through secondary information sources such as electric utilities, equipment manufacturers, developers, project proponent’s – news, deals and financial reporting, regulatory body, associations, government planning reports and publications. Wherever needed the information is further validated through primary from various stakeholders across the power value chain and professionals from leading players within the power sector.