SSE and Norway’s Equinor plan to embark on a project – the development of a 900-MW hydrogen-fired power station in North Lincolnshire, England.

This endeavor, known as the Keadby Hydrogen Power Station, could revolutionize the energy landscape and contribute significantly to the UK’s decarbonization efforts.

The proposed Keadby Hydrogen Power Station aims to harness the power of hydrogen as a clean and sustainable energy source. With a capacity of 900 megawatts, this facility holds the potential to generate substantial amounts of clean electricity, paving the way for a greener future. By utilizing hydrogen as its primary fuel, the power station seeks to minimize carbon emissions and reduce environmental impact.

The journey towards establishing the Keadby Hydrogen Power Station begins with environmental scoping, scheduled to commence in April. Following this initial phase, SSE and Equinor plan to conduct a comprehensive public consultation to gather feedback and insights from stakeholders. Subsequently, a full planning application will be submitted, marking a significant step towards bringing the project to fruition.

While the ultimate goal is to operate the power station solely on hydrogen, the partners recognize the challenges associated with developing a reliable hydrogen supply chain. Therefore, the planning application will adopt a ‘dual fuel’ approach, allowing for flexibility in fuel usage during the initial stages. This pragmatic approach ensures that the project remains viable while paving the way for a seamless transition to hydrogen as technology and infrastructure evolve.

The proposal for the Keadby Hydrogen Power Station aligns closely with the UK government’s vision for the energy sector. The recent consultation on the Review of Electricity Market Arrangements underscores the need for new flexible power stations to support the transition to a low-carbon economy. By embracing hydrogen technology, SSE and Equinor are poised to address this need while contributing to national energy security and sustainability goals.

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