energy-pedia

Oil & Gas 360 Publishers Note: This is one of the components of the BP’s long-term strategy for reducing carbon. This is interesting technology, and I would like to see it succeed. I am curious about the cost effectiveness of the project, and the carbon footprint of the renewable infrastructure. – this will be interesting to follow the money.   

BP and Ørsted have today signed a Letter of Intent (LOI) to work together to develop a ‎project for industrial-scale production of green hydrogen – a significant step in developing ‎bp’s hydrogen business. Green hydrogen is made by the electrolysis of water using ‎renewable power, producing zero emissions.

In their proposed Lingen Green Hydrogen project, the two firms intend to build an initial 50 ‎megawatt (MW) electrolyser and associated infrastructure at bp’s Lingen Refinery in north-‎west Germany. This will be powered by renewable energy generated by an Ørsted offshore ‎wind farm in the North Sea and the hydrogen produced will be used in the refinery.‎

  • Plan to jointly develop industrial-scale electrolyser project for green hydrogen ‎production ‎
  • Powered by Ørsted offshore wind, project will initially replace 20% of natural gas-‎based hydrogen used at bp’s Lingen refinery ‎
  • Scale of project will support future reduction in green hydrogen costs ‎
  • bp’s first full-scale green hydrogen project, a significant step in strategic ‎development of new hydrogen business aligned with German and EU hydrogen ‎strategies

Under their LOI, bp and Ørsted will now work together to further define the project, agree ‎definitive documents and plan to make a final investment decision (FID) early 2022, subject ‎to appropriate enabling policies being in place. The companies anticipate the project could be ‎operational by 2024.

BP and Orsted to create renewable hydrogen - oilandgas360

Electrolysis splits water into hydrogen and oxygen gases. When powered by renewable ‎energy, this produces ‘green’ hydrogen, without generating direct carbon emissions. ‎Hydrogen is widely used in refinery processes where – as in Lingen – it is now typically ‎produced by reforming natural gas, which does result in CO2 emissions. This is also known ‎as ‘grey’ hydrogen.‎

The 50 MW electrolyser project is expected to produce one tonne an hour of green ‎hydrogen or almost 9,000 tonnes a year. This would be sufficient to replace around 20% of ‎the refinery’s current grey hydrogen consumption, avoiding around 80,000 tonnes of CO2 ‎equivalent emissions a year – equivalent to the emissions from around 45,000 cars in ‎Germany.

Dev Sanyal, bp’s executive vice president for gas and low carbon, said: ‘Hydrogen will have ‎an increasing role to play in meeting the energy demands of a decarbonizing world. And we ‎are determined to build a leading position in this emerging industry. Bringing together Ørsted ‎and bp, Lingen Green Hydrogen offers the opportunity both to accelerate significant ‎emissions reduction in our refinery and build experience of large-scale green hydrogen ‎production and deployment. This has the potential to play an important role in the ‎development of a hydrogen economy, in Germany and beyond.’

Martin Neubert, executive vice president and CEO of offshore wind for Ørsted, added: ‘Heavy industries such as refineries use large quantities of hydrogen in their manufacturing ‎processes. They will continue to need hydrogen, but replacing the current fossil-based ‎hydrogen with hydrogen produced from renewable energy can help these industries ‎dramatically lower their CO2 footprint. But first, renewable hydrogen has to become cost ‎competitive with fossil-based hydrogen, and for that we need projects such as this with bp’s ‎Lingen refinery which will demonstrate the electrolyser technology at large scale and ‎showcase real-life application of hydrogen based on offshore wind.’

In the coming decades, hydrogen is expected to play a critical role in decarbonising the ‎power, industry and transport sectors, especially those that are hard-to-electrify or ‎expensive-to-electrify. The development of businesses in emerging technologies such as ‎hydrogen and carbon capture use and storage (CCUS) is an integral part of bp’s strategy of ‎transforming to an integrated energy company.‎

In addition to green hydrogen production, bp and Ørsted intend to focus on maximising the ‎efficiency of the project’s electrolysis system, including assessing sustainable uses for the ‎main by-products of the process, primarily oxygen and low-grade excess heat.‎

The project is also intended to support a longer-term ambition to build more than 500MW of ‎renewable-powered electrolysis capacity at Lingen. This could provide green hydrogen to ‎both meet all the refinery’s hydrogen demand and provide feedstock for potential future ‎synthetic fuel production.

bp and Ørsted have together applied for funding for the Lingen Green Hydrogen project from ‎the EU Innovation Fund – one of the largest funding programmes for innovative low carbon ‎technologies, focusing particularly on energy intensive industries.

The Lingen Refinery processes about five million tonnes of crude oil a year (c 100,000 barrels ‎a day), producing fuels, heating oil and chemical feedstocks. In 2018 Lingen conducted the ‎world’s first trial of green hydrogen in a fuels refinery.‎


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