Siemens will set up a high-efficiency HL-class power island for a new combined cycle power plant (CCPP) in South Korea. This will be the first two state-of-the-art HL-class gas turbines that Siemens will supply to a customer in Asia. The new plant, which will be built in Yeoju, in South Korea’s Gyeonggi Province, will run on regasified liquefied natural gas (LNG) and offer a generating capacity of more than one gigawatt. With a maximum efficiency rating of more than 63 percent the gas turbine will allow the power station to get the most out of the valuable LNG for electricity generation, enabling especially economical and environmentally friendly operation. The customer is South Korean EPC SK Engineering & Construction Co., Ltd., which is constructing the entire plant for the independent power producer Yeoju Energy Services.
“The very high efficiency of our innovative HL-class technology makes it perfect for South Korea,” says Andreas Pistauer, Head of Power Generation Asia and Pacific at Siemens Gas and Power. “The country has to import its entire gas requirement in the form of LNG by sea at huge cost, therefore higher efficiency ratings mean major financial benefits.”
Yeoju is designed as a multi-shaft CCPP, in which two gas turbines and one steam turbine will each drive their own generator. Siemens’ power island concludes two SGT6-9000HL gas turbines, one SST6-5000 steam turbine, three SGen6-2000P generators, two heat recovery steam generators, and the SPPA-T3000 distributed control system. The plant has a capacity of 1,004 megawatts. The commissioning is scheduled for mid-2022.
Power stations that will use the new Siemens HL-class gas turbine are currently under construction in North Carolina and Mississippi in the US, and in Lincolnshire in the UK. Yeoju is the fourth order Siemens has received for its HL-class, and the company has now sold a total of five machines of this type. The Siemens HL-class is based on the proven design of the SGT-8000H series of gas turbines, and benefits from the extensive experience gained with this type, which has now accumulated more than one million service hours around the world.
Exhaust Gas Recirculation Boosts Carbon-Capture Efficiency and Reduces Costs, says GE Vernova
November 8th 2024Jeremee Wetherby, the Carbon Solutions Director at GE Vernova, offers deeper insights into the benefits of retrofitting carbon-capture systems with an exhaust gas recirculation system.
GE Vernova’s FEED Studies Reduce Carbon Capture Total, Operational Costs at Saudi Plants
November 5th 2024The studies targeted up to 32% by volume hydrogen blending with natural gas and identified modifications to the power generation assets, including exhaust gas recirculation to lower carbon-capture costs.