Airengy, Hagag Europe to build 5 GWh compressed-air energy storage plant in Romania

Airengy and Hagag Europe are jointly developing a 5 GWh compressed-air energy storage (CAES) plant in Romania, with commercial operation targeted for early 2028. This project, involving an investment of approximately €55 million, marks a significant step in deploying long-duration energy storage technology at a commercial scale in Europe.

The project will utilize Airengy’s proprietary AirBattery technology, which stores energy by compressing air into underground salt caverns. The plant will be developed in two phases, initially adding around 200 MWh of storage capacity at an estimated cost of €4.5 million, with eventual capacity reaching 5 GWh.

Hagag Europe and Airengy will each hold a 40% stake through a special purpose vehicle, with a third unnamed investor owning 20%. Airengy will be responsible for planning, design, construction, and operation of the facility. Construction is expected to start in 2027, with commercial operation anticipated in early 2028, according to Airengy’s VP of Business Development Technologies.

Why the Romania CAES Project Represents a Major Milestone

This project demonstrates a significant advancement in long-duration energy storage, which is critical for integrating renewable energy sources into the grid. The use of Airengy’s technology offers a climate-friendly alternative to traditional storage methods, with low operating costs and minimal environmental impact.

By deploying a 5 GWh capacity, the project could provide essential grid balancing services, support decarbonization efforts, and serve as a model for similar projects across Europe. Its success could accelerate the commercialization of compressed-air energy storage at scale, addressing the need for reliable, long-term energy storage solutions.

Romania’s Salt Caverns and Growing Energy Storage Needs

Romania has a history of underground salt cavern storage, primarily used for natural gas, with many caverns still available for repurposing. The country’s strategic location and existing infrastructure make it an attractive site for energy storage projects.

Recent developments in European energy policy emphasize decarbonization and renewable integration, increasing demand for large-scale storage solutions. Airengy and Hagag Europe’s project aligns with these trends, leveraging Romania’s salt caverns and favorable market conditions to develop a pioneering long-duration storage facility.

“The project in Romania signifies a vital step toward scalable, climate-friendly energy storage that complements renewable energy deployment.”

— an anonymous researcher

Uncertainties Surrounding Project Timeline and Commercial Viability

While the project has been announced with a planned construction start in 2027 and operation in early 2028, specific details about permitting, final site selection, and potential regulatory hurdles remain unconfirmed. The scalability of Airengy’s technology beyond this initial phase also remains to be demonstrated at a larger commercial scale.

Next Steps for Project Development and Market Impact

Airengy and Hagag Europe will proceed with detailed planning, securing permits, and finalizing site preparations in the coming months. The project aims to begin construction in 2027, with commercial operation expected in early 2028. Its success could influence the adoption of CAES technology across Europe and beyond.

Key Questions

What is compressed-air energy storage (CAES)?

CAES stores excess electricity by compressing air into underground caverns, which is later released to generate electricity when needed, providing long-duration storage capabilities.

Why is Romania suitable for this project?

Romania has extensive underground salt caverns, existing infrastructure, and a strategic location, making it an ideal site for deploying large-scale CAES technology.

When will the plant be operational?

Construction is expected to start in 2027, with commercial operation targeted for early 2028.

How does Airengy’s technology differ from other storage methods?

Airengy’s AirBattery technology is climate-agnostic, environmentally friendly, and designed for long-duration storage with low operating costs, using only air and water.

What impact could this project have on Europe’s energy grid?

This project could enhance grid stability, support renewable integration, and serve as a model for scalable long-duration storage solutions across Europe.

Source: PV Magazine