The 4MWh project would store compressed air in large rigid tanks ballasted on the seabed, making it a form of compressed air energy storage (CAES), one of the more commercial mature LDES technologies.

BaroMar claims that the underwater nature of its solution gets around the main regulatory and geographical constraints of conventional CAES on land.

‘Unmatchable low construction costs’ can be achieved by BaroMar’s solution thanks to the negligible difference in relative pressure between the compressed air and the surrounding water, the use of traditional machine construction and installation methods, and a design that almost eliminates the need for underwater maintenance, it said.

“This project requires extensive geophysical, geotechnical and bathymetric surveying, investigation, feasibility studying and permitting for tank installation at deep depths for onshore mechanical and electrical equipment needs,” says Jacobs VP Fiachra Ó Cléirigh.

RheEnergise launching first large-scale LDES project, in UK

Long-duration ‘hydro-energy storage’ developer RheEnergise has agreed to build its first-of-a-kind system demonstrator at Sibelco’s mining operations at Cornwood, near Plymouth.

Mining company Sibelco’s Cornwood site produces kaolin, mainly for sanitary ware, ceramics, tiles and industrial applications. RheEnergise’s 500kW so-called ‘high-density’ pumped hydro energy storage (PHES) project will support the organisation in decarbonising its operation.

PHES is the most commercially mature LDES technology, having been deployed at scale for decades globally.

It is worth noting that Stephen Crosher, chief executive of RheEnergise, aims to have the “first 10MW grid-scale project in operation within two years”.

RheEnergise has developed a hydro-energy storage solution that can operate on low hills rather than just mountains, which creates an opportunity an order of magnitude greater than traditional pumped hydro.

Key to the solution is the use of the company’s High-Density Fluid R-19, which is 2.5x denser than water. Because of the fluid’s high density, projects can not only be constructed in areas with less elevation but can also be up to 2.5 times smaller than traditional pumped hydro projects for the same energy, the company claimed.

The project is being supported via the UK government’s Longer Duration Energy Storage (official acronym LODES) Demonstration Programme, and Devon County Council has provided permission for its development.

See the original, full version of the RheEnergise section of this article on our sister site Current.