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09 Dec 2024

ØRsted’s 300MW/600MWH BESS a ‘Blueprint for the Future’

09 Dec 2024   

The co-located BESS development is the result of three years’ collaboration between Ørsted, NESO and National Grid Electricity Transmission (NGET). Image: Jason Bye via Ørsted.

A 300MW/600MWh battery energy storage system (BESS) co-located with Ørsted’s Hornsea 3 Offshore Wind Farm onshore substation is expected to come online in 2026.

Dubbed the Boudica Project, the BESS will be owned by Ørsted ICENI Energy Storage UK, the storage-focused branch of the Danish energy company and developer. It is a novel project in that the storage system will be co-located with an onshore substation, sharing a connection with an offshore wind power plant. The BESS site and substation are near Norwich in Norfolk.

Ørsted currently operates more than 5GW of offshore wind capacity and has an additional 5GW under construction or in development in the UK, including the Hornsea 3 and Hornsea 4 projects. In this year’s Contracts for Difference (CfD) auction round, Hornsea 3 re-bid and was awarded a 1,080MW contract. Ørsted claims that Hornsea 3, with a 2,400MW capacity, is the largest wind energy plant globally.

The co-located BESS development is the result of three years of collaboration between Ørsted, NESO and National Grid Electricity Transmission (NGET), and was designated a Pathfinder project by the UK government’s Offshore Transmission Network Review (OTNR). OTNR aimed to improve coordination between projects to incorporate increasing amounts of renewable energy coming onto the network.

After working through the Pathfinder process, the Boudica BESS is expected to come online in 2026.

Bridgit Hartland-Johnson, chief specialist of system integration at Ørsted, called the project a “blueprint for the future”, pointing out that similar projects are entering the pipeline “demonstrating that it is a best-in-class solution”.

John Twomey, director of customer connections at National Grid Electricity Transmission, said: “Co-locating assets in this way can help maximise the benefits of new renewable generation planning to connect to the electricity network, ensuring excess wind power can be stored and used when needed.”

Sharing and reutilising infrastructure reduces capital and operational costs, and combining assets at a single location can create value-added systems. Integrated wind and solar sites yield more stable and manageable power output.

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