Significant Step Forward For Keadby 3 Carbon Capture Power Station
The title of this post, is the same as that of this press release from SSE.
These three paragraphs outline the project.
A landmark project in the Humber which could become the UK’s first power station equipped with carbon capture technology has taken a major leap forward following an announcement by the UK Government today.
Keadby 3 Carbon Capture Power Station, which is being jointly developed by SSE Thermal and Equinor, has been selected to be taken forward to the due diligence stage by the Department for Business, Energy and Industry Strategy (BEIS) as part of its Cluster Sequencing Process.
This process will give the project the opportunity to receive government support, allowing it to deploy cutting edge carbon capture technology, and to connect to the shared CO2 pipelines being developed through the East Coast Cluster, with its emissions safely stored under the Southern North Sea. The common infrastructure will also supply low-carbon hydrogen to potential users across the region.
The press release also says this about the power station.
- Keadby 3 power station could have a generating capacity of up to 910MW.
- It could be operational by 2027.
- It would capture up to one and a half million tonnes of CO2 a year.
It would provide low-carbon, flexible power to back-up renewable generation.
The H2H Saltend Project
The press release also says this about the H2H Saltend project.
Equinor’s H2H Saltend project, the ‘kick-starter’ for the wider Zero Carbon Humber ambition, has also been taken to the next stage of the process by BEIS. The planned hydrogen production facility could provide a hydrogen supply to Triton Power’s Saltend Power Station as well as other local industrial users. In June, SSE Thermal and Equinor entered into an agreement to acquire the Triton Power portfolio.
I wrote about H2H Saltend and the acquisition of Triton Power in SSE Thermal And Equinor To Acquire Triton Power In Acceleration Of Low-Carbon Ambitions.
In the related post, I added up all the power stations and wind farms, that are owned by SSE Thermal and it came to a massive 9.1 GW, which should all be available by 2027.
Collaboration Between SSE Thermal And Equinor
The press release also says this about collaboration between SSE Thermal and Equinor.
The two companies are also collaborating on major hydrogen projects in the Humber. Keadby Hydrogen Power Station could be one of the world’s first 100% hydrogen-fuelled power stations, while Aldbrough Hydrogen Storage could be one of the world’s largest hydrogen storage facilities. In addition, they are developing Peterhead Carbon Capture Power Station in Aberdeenshire, which would be a major contributor to decarbonising the Scottish Cluster.
This collaboration doesn’t lack ambition.
I also think, that there will expansion of their ambitions.
Horticulture
Lincolnshire is about horticulture and it is a generally flat county, which makes it ideal for greenhouses.
I wouldn’t be surprised to see a large acreage of greenhouses built close to the Humber carbon dioxide system, so that flowers, salad vegetables, soft fruit, tomatoes and other plants can be grown to absorb the carbon dioxide.
It should also be noted that one of the ingredients of Quorn is carbon dioxide from a fertiliser plant, that also feeds a large tomato greenhouse.
We would have our carbon dioxide and eat it.
Other Uses Of Carbon Dioxide
Storing carbon dioxide in depleted gas fields in the North Sea will probably work, but it’s a bit like putting your rubbish in the shed.
Eventually, you run out of space.
The idea I like comes from an Australian company called Mineral Carbonation International.
- I wrote about their success at COP26 in Mineral Carbonation International Win COP26 Clean Energy Pitch Battle.
- The company has developed the technology to convert carbon dioxide into building products like blocks and plasterboard.
- Their mission is to remove a billion tonnes of CO2 by 2040 safely and permanently.
We would have our carbon dioxide and live in it.
I also think other major uses will be developed.
A Large Battery
There is the hydrogen storage at Aldbrough, but that is indirect energy storage.
There needs to be a large battery to smooth everything out.
In Highview Power’s Second Commercial System In Yorkshire, I talk about Highview Power’s proposal for a 200MW/2.5GWh CRYOBattery.
This technology would be ideal, as would several other technologies.
Conclusion
Humberside will get a giant zero-carbon power station.
Rolls-Royce Secures Funding To Build Direct Air Capture Demonstrator
The title of this post, is the same as that of this press release from Rolls-Royce.
These are the two introductory paragraphs.
Rolls-Royce has secured £3m from the UK Government to build a demonstrator Direct Air Capture (DAC) system, which could play a vital role in keeping global temperature rises to below 1.5C by removing CO2 from the atmosphere.
The demonstrator funding comes from the Net Zero Innovation Portfolio (NZIP) through the Department for Business, Energy and Industrial Strategy (BEIS) and helps deliver on the UK Government’s 10 Point Plan for a Green Industrial Revolution. It follows initial Phase 1 funding of £250,000 awarded in 2021, that allowed Rolls-Royce to design the demonstrator in partnership with the Commonwealth Scientific and Industrial Research Organisation (CSIRO).
These two paragraphs, give a few clues to the technology.
Jess Poole, Direct Air Capture Lead for Rolls-Royce, said: “Every credible climate change model requires us to decarbonise today’s emissions, as well as removing CO2 already in the atmosphere via carbon negative technologies such as DAC. Our system combines our expertise in moving large quantities of air efficiently and integrating complex systems, which have been gained from designing world-leading jet engines, with novel DAC technology developed by CSIRO.
“Together the system works like a giant lung, sucking in air, absorbing the CO2, and releasing what is not wanted. We use a water-based liquid to wash around 50% of the CO2 from the captured air. Our technology is distinctive because very little water is used, and the liquid is recycled at low temperatures, making it energy efficient. Other technologies consume a lot of water and require substantial amounts of energy to generate heat for the separation of the CO2.
I was unaware of CSIRO, but that is not surprising, as they are Australian. They are introduced like this in their Wikipedia entry.
The Commonwealth Scientific and Industrial Research Organisation (CSIRO) is an Australian Government agency responsible for scientific research.
CSIRO works with leading organisations around the world. From its headquarters in Canberra, CSIRO maintains more than 50 sites across Australia and in France, Chile and the United States, employing about 5,500 people.
Their motto is “We imagine. We collaborate. We innovate.”
There’s certainly been several brilliant ideas and projects from the country in the last few years.
Is this another?
Another Problem With Carbon Dioxide
When I’m in an optimistic mood, I feel that scientists and engineers may develop so many ideas for the use of carbon dioxide, that we may need to burn natural gas in power stations, so we have the carbon dioxide for industrial or agricultural uses.
I know of one tomato grower, who uses a gas-powered combined heat and power boiler to heat his greenhouses. The carbon dioxide is fed to the tomatoes and any spare electricity is sold to the grid.
Direct Air Capture (DAC) systems might be needed to provide a carbon dioxide feedstock for some processes. Suppose in the tomato example, the grower is heating his greenhouses with an energy source, that doesn’t generate carbon dioxide, he might want to obtain his carbon dioxide from the air.
MAHYTEC Creates World’s First Hydrogen-Powered Riding Lawnmower
I searched for hydrogen-powered lawnmower and found this page.
Surely ideal for the Prince of Wales to buy for Camilla, when she does the mowing at Highgrove.
But seriously, if you can make a hydrogen-powered ride-on mower, you can make any number of smaller horticultural and agricultural vehicles, that run on hydrogen.
How long before John Deere or one of the big Japanese manufacturers releases a hydrogen-powered lawnmower, that takes the large grass-cutting market by storm?
It won’t be just the grass, that is green!
I suspect a company like ITM Power will provide the operator with their own hydrogen generator.
I can envisage the farm of the future, having the following.
- Hydrogen powered tractors, loaders and other powered machinery.
- Hydrogen-powered Range-Rover to speed through the lanes.
- Hydrogen-powered lawn mower to make the place look good.
- Hydrogen-powered vehicles for road use.
All would be powered by the farm’s own hydrgen generator, which might use their own wind turbine.
The Anonymous Widower 