The project will feature Alfa Laval’s advanced cryogenic equipment, including brazed aluminium plate heat exchangers and a vertical high-pressure cryogenic pump with ten stages, designed to handle extreme conditions with precision and reliability.
The system will produce up to ten tons of liquid air per day, enabling efficient energy storage and release when demand peaks.
“This partnership demonstrates how innovation and collaboration can drive meaningful progress toward a more sustainable energy system and will strengthen Alfa Laval’s position as a key supplier of LAES technology in South Korea,” said Alasdair Maciver, head of energy storage solutions, Alfa Laval.
“Our cryogenic technologies are engineered to maximise efficiency and reliability, helping our partners unlock the full potential of renewable energy.”
“We are proud to collaborate with Alfa Laval on this pioneering project,” added Dr Sungho, Park, director of energy systems at the Institute for Advanced Engineering.
“Together, we are setting a new benchmark for energy efficiency and sustainability in South Korea.”
Liquid air energy storage works by cooling air to cryogenic temperatures, turning it into a liquid that can be stored in insulated tanks.
When energy is needed, the liquid air is warmed and expanded to drive turbines, generating electricity.
The process offers a scalable, long-duration storage solution that helps balance supply and demand, reduce renewable curtailment, and strengthen grid resilience.
