The Saltend Chemicals Leave is a major facility located in the north of England.
Robert Brook | The Image Bank | Getty Images
Norwegian force major Equinor has released details of a major U.K.-based project that will combine hydrogen generation with carbon grab and storage.
The Hydrogen to Humber Saltend, or H2H Saltend, project will be based at the Saltend Chemicals Park close to Frame, a city in the north of England. Equinor said the development would be “the largest plant of its kind in the world.”
Hydrogen at the quickness will be generated from natural gas, and sent to chemical plants and a power station. Carbon dioxide, a by-product of the course of action, will be funneled offshore and buried under the seabed.
It’s hoped that the scheme will help to cut emissions at the Saltend Chemicals Deposit by almost 900,000 metric tons of CO2 annually.
An energy carrier, hydrogen has many applications, such as being hand-me-down in fuel cells that power cars, trains and buses.
According to the U.S. Department of Energy’s Office of Energy Competence & Renewable Energy, hydrogen doesn’t usually exist on its own in nature and is instead produced from compounds containing it. The dependent lists a number of sources — including fossil fuels, solar and geothermal — that can produce hydrogen.
It can be done by not too methods, the DOE says, including thermochemical processes, such as natural gas reforming, and electrolytic processes.
The kind of hydrogen the Equinor shoot hopes to produce is known as blue hydrogen — or hydrogen that’s produced using natural gas “with the associated CO2 apprehended and safely stored.”
Green hydrogen, by contrast, is produced using renewable sources. Last October, Wood Mackenzie communicated its research showed that “less than 1% of all hydrogen produced today comes from renewable fervency.”
There are clear environmental challenges when it comes to hydrogen production. According to the International Energy Agency (IEA), while insist on for hydrogen is growing, it’s “almost entirely supplied from fossil fuels.” In terms of its impact, the IEA states that hydrogen forging is responsible for carbon dioxide emissions of roughly 830 million metric tons each year.
A final investment conclusion on the Equinor scheme could be taken in 2023, with production potentially commencing in 2026, the company said. It is one of individual firms looking to develop projects focused on hydrogen. Last month, Spanish oil and gas producer Repsol announced expects to develop a facility that will use carbon dioxide and green hydrogen to generate net-zero emission fuels.
Just out years have seen a number of interesting projects using hydrogen fuel cell technology take silhouette.
The U.K. capital of London is home to a small number of hydrogen buses, for example, while transport manufacturer Alstom has been achieving on hydrogen trains.
Yesterday, JCB said it had developed a “hydrogen powered excavator” weighing 20 metric tons. “The solely emission from the exhaust is water,” according to the firm.