The Anonymous Widower

UK To Manufacture Gun Barrels For First Time In Ten Years

Yesterday, the UK government issued a press release, which is entitled Landmark UK-Germany Defence Agreement To Strengthen Our Security And Prosperity.

This is the sub-heading.

A landmark defence agreement will be signed by Defence Secretary John Healey MP and German Defence Minister Boris Pistorius in London today in a major moment for NATO, and European security and prosperity. It is the first-of-its-kind agreement between the UK and Germany on defence.

This introductory paragraph, lays down the tone and objectives of the agreement.

The signing of the Trinity House Agreement marks a fundamental shift in the UK’s relations with Germany and for European security. This agreement between Europe’s two biggest defence spenders will strengthen national security and economic growth in the face of growing Russian aggression and increasing threats.

It is a wide-ranging document, but in this post, I will concentrate on one topic; gun barrel manufacture, which is talked about in this paragraph.

The new partnership will help drive investment into the UK – with the agreement paving the way for a new artillery gun barrel factory to be opened in the UK, supporting more than 400 jobs and nearly half a billion-pounds boost to the British economy. The opening of the Rheinmetall factory will see the UK manufacture artillery gun barrels for the first time in 10 years, using British steel produced by Sheffield Forgemasters.

Will Putin and his supporters like being shot at by the best German-designed artillery pieces, built from the best Sheffield steel in a British factory?

When I first heard of this story I thought of one short and powerful six-letter word – energy.

Some may think, we have an idiotic energy policy, which is abandoning all our coal, gas and oil in favour of renewables.

  • We shut our last coal-fired power station a couple of weeks ago and I showed pictures of the last station in Last Of The Many.
  • Germany had fifty-eight coal-fired power stations in operation, as late as July 2023.
  • Germany has also lost all its cheap Russian gas.
  • Germany is also short of energy and what they’ve got is expensive.
  • It’s also likely, that making the quality of gun barrels, that will annoy Putin and his ilk will need a lot of energy.

So would it be better to move operations that need a lot of expensive energy out of Germany?

I’ve also read somewhere, that Germany intends to retire coal-fired energy generation by the end of the decade.

The Germans are also developing two massive hydrogen projects to replace the coal and cut their carbon dioxide emissions.

  • AquaVentus will harvest 10.3 GW of hydrogen from the North Sea and is described in this post called AquaVentus.
  • H2ercules will distribute the hydrogen and is described in this post called H2ercules.

Is it more affordable for the Germans to move high energy manufacturing to the energy?

I wonder, if the deal will eventually be something like this.

  • Rheinmetall will build the gun barrel factory, somewhere that is convenient for Sheffield and Germany and that has access to lots of energy.
  • The energy will need to be green to ease Germany’s Chancellor’s problem with the Greens.
  • Siemens recently built a train factory at Goole and surely that area of North Humberside and East Yorkshire with its large supplies of wind energy and hydrogen, backed up by the gas- and hydrogen-fired power stations at Keadby, would be a good location for an energy-consumptive business.
  • Sheffield Forgemasters might even build a factory next door, to tap into the energy of the area and reduce transport costs of the gun barrel blanks.
  • Sheffield Forgemasters’s steel may even come from British Steel at Scunthorpe. If British Steel make rails, that are good enough for German railways, then surely, it is a good enough starting material for German gun barrels.
  • The Port of Immingham is nearby for import and export of components and finished products.
  • All of the German activity in the area, will surely see flights develop to and from Germany at the nearby well-quipped Humberside Airport.
  • Hull Trains, LNER and TransPennine Express will increase their services to Doncaster, Hull, Lincoln, London, Manchester and Sheffield.
  • I wouldn’t be surprised to see a train service between London and Hull via Doncaster, a new Goole parkway station and Brough. It could even use battery-electric or hydrogen trains assembled by Siemens at their Goole factory.

Humberside could be becoming Little Germany, as it has what Germany needs – energy!

 

October 23, 2024 Posted by | Energy, Hydrogen, News, World | , , , , , , , , , , , , , , , | 2 Comments

Energy In – Hydrogen And Carbon Dioxide Out

This article was inspired by this article in the Sunday Times, which is entitled ‘It’s A Slog’: Life Inside Britain’s Last Coal Power Station.

The article is about Ratcliffe-on-Soar power station, which is next to East Midlands Parkway station.

This is the first paragraph of the station’s Wikipedia entry.

Ratcliffe-on-Soar Power Station is a coal-fired power station owned and operated by Uniper at Ratcliffe-on-Soar in Nottinghamshire, England. Commissioned in 1968 by the Central Electricity Generating Board, the station has a capacity of 2,000 MW. It is the last remaining operational coal-fired power station in the UK, and is scheduled to close in September 2024.

I took these pictures of the power station in 2019.

Ratcliffe-on-Soar is the last of a number of large coal-fired power stations, that were built in the area, mainly along the River Trent.

  • Rugeley – 600 MW – 1961
  • Drakelow – 1630 MW – 1964
  • Willington – 800 MW – 1962
  • Castle Donington – 600 MW – 1958
  • Ratcliffe-on-Soar – 2000 MW – 1968
  • High Marnham – 1000 MW – 1959
  • Cottam – 2000 MW – 1968
  • West Burton – 2000 MW – 1968

Note.

  1. The date is the commissioning date.
  2. That is 10,630 MW of electricity.
  3. There are also a few large gas-fired power stations along the river, that are still operating.
  4. Both coal and gas-fired stations use the water from the River Trent for cooling.

At the mouth of the river, there is the Keadby cluster of gas-fired power stations.

  • Keadby 1 – 734 MW – 1996
  • Keadby 2 – 849 MW – 2023
  • Keadby 3 – 910 MW – 2027
  • Keadby Hydrogen – 900 MW – 2030

Note.

  1. The date is the commissioning date.
  2. That is 3,393 MW of electricity.
  3. Keadby 2 is the most efficient CCGT in the world.
  4. Keadby 3 will be fitted with carbon capture.
  5. Keadby 2 has been designed to be retrofitted with carbon capture.
  6. Keadby Hydrogen will be fuelled by zero-carbon hydrogen.

As the years progress, I can see the Keadby cluster of power stations becoming a large zero-carbon power station to back-up wind farms in the North Sea.

  • Hydrogen power stations will emit no carbon dioxide.
  • Carbon dioxide from all gas-fired stations will be captured.
  • Some carbon dioxide will be sold on, to companies who can use it, in industries like construction, agriculture and chemical manufacture.
  • The remaining carbon dioxide will be stored in depleted gas fields.

As technology improves, more carbon dioxide will be used rather than stored.

Other Power Sources In The Humberside Area

In the next few sub-sections, I will list the other major power sources in the Humberside area.

Drax Power Station

Drax power station is a shadow of its former self, when it was one of the power stations fed by the newly discovered Selby coalfield.

These days it is a 2,595 MW biomass-fired power station.

Eastern Green Link 2

Eastern Green Link 2 will be a 2 GW interconnector between Peterhead in Scotland and Drax.

It is shown in this map.

Note.

  1. Most of the route is underwater.
  2. It is funded by National Grid.
  3. Contracts have been signed, as I talk about in Contracts Signed For Eastern Green Link 2 Cable And Converter Stations.
  4. It is scheduled to be completed by 2029.

This interconnector will bring up to 2 GW of Scottish wind-generated electricity to Drax and Humberside.

Drax has the substations and other electrical gubbins to distribute the electricity efficiently to where it is needed.

2 GW could also reduce the amount of biomass used at Drax.

In the long term, if the concept of the four Eastern Green Links is successful, I could see another Eastern Green Link to Drax to replace imported biomass at Drax.

I also, don’t see why a smaller Drax can’t be run on locally-sourced biomass.

Solar Farms And Batteries Along The River Trent

As the coal-fired power stations along the River Trent are demolished, solar farm developers have moved in to develop large solar farms.

Salt End Power Station And Chemical Works

These two paragraphs from the Wikipedia entry for Salt End describes the hamlet and its power station and chemical works.

Salt End or Saltend is a hamlet in the East Riding of Yorkshire, England, in an area known as Holderness. It is situated on the north bank of the Humber Estuary just outside the Hull eastern boundary on the A1033 road. It forms part of the civil parish of Preston.

Salt End is dominated by a chemical park owned by PX group, and a gas-fired power station owned by Triton Power. Chemicals produced at Salt End include acetic acid, acetic anhydride, ammonia, bio-butanol, bio-ethanol, ethyl acetate (ETAC) and ethylene-vinyl alcohol copolymer (EVOH) with animal feed also being produced on site.

I wonder, if running the complex on hydrogen would give cost and marketing advantages.

Aldbrough Hydrogen Storage Facility

This page on the SSE Thermal web site is entitled Plans For World-Leading Hydrogen Storage Facility At Aldbrough.

This is the most significant paragraph of the page, that is definitely a must-read.

With an initial expected capacity of at least 320GWh, Aldbrough Hydrogen Storage would be significantly larger than any hydrogen storage facility in operation in the world today. The Aldbrough site is ideally located to store the low-carbon hydrogen set to be produced and used in the Humber region.

This is a hydrogen storage facility for a much wider area than Humberside.

Rough Gas Storage Facility

This is the first paragraph of the Wikipedia entry for the Rough Gas Storage Facility.

Rough is a natural gas storage facility under the North Sea off the east coast of England. It is capable of storing 100 billion cubic feet of gas, nearly double the storage capacities in operation in Great Britain in 2021.

In Wood To Optimise Hydrogen Storage For Centrica’s Rough Field, I describe Centrica’s plans to convert the Rough gas storage into a massive hydrogen storage.

The Location Of Aldbrough Gas Storage, Rough Gas Storage, Salt End And Easington Gas Terminal

This Google Map shows between Salt End and the coast.

Note.

  1. The river crossing the South-West corner of the map is the Humber.
  2. Salt End with its power station and chemical works is on the North Bank of the Humber, where the river leaves the map.
  3. Aldbrough Gas Storage is marked by the red arrow at the top of the map.
  4. Easington Gas Terminal is in the South-East corner of the map.
  5. According to Wikipedia, gas flows into and out of the Rough Gas Storage are managed from Easington.

Looking at the map, I feel that the following should be possible.

  • The two gas storage sites could be run together.
  • Salt End power station and the related chemical works could run on hydrogen.
  • Salt End will always have a reliable source of hydrogen.
  • This hydrogen could be green if required.

All the chemical works at Salt End, could be run on a zero-carbon basis. Would this mean premium product prices? Just like organic does?

Enter The Germans

The Germans have a huge decarbonisation problem, with all their coal-fired power stations and other industry.

Three massive projects will convert much of the country and industry to hydrogen.

These would appear to be three of Europe’s largest hydrogen projects, that few have ever heard of.

AquaVentus And The UK

This video shows the structure of AquaVentus.

I clipped this map from the video.

Note.

  1. The thick white line running North-West/South-East is the spine of AquaVentus, that delivers hydrogen to Germany.
  2. There is a link to Denmark.
  3. There appears to be an undeveloped link to Norway.
  4. There appears to be an undeveloped  link to Peterhead in Scotland.
  5. There appears to be a link to just North of the Humber in England.
  6. Just North of the Humber are the two massive gas storage sites of Aldbrough owned by SSE and Brough owned by Centrica.
  7. There appear to be small ships sailing up and down the East Coast of the UK. Are these small coastal tankers, that are distributing the hydrogen to where it is needed?

In the last century, the oil industry, built a substantial oil and gas network in the North Sea.

It appears now the Germans are leading the building of a substantial hydrogen network in the North Sea.

These are my thoughts about development of the AquaVentus network.

Hydrogen Production And AquaVentus

This RWE graphic shows the layout of the wind farms feeding AquaVentus.

Note.

  1. There is a total of 10.3 GW.
  2. Is one of the 2 GW web sites on the UK-side of AquaVentus, the 3 GW Dogger Bank South wind farm, which is being developed by RWE?
  3. Is the 0.3 GW wind farm, RWE’s Norfolk wind farm cluster, which is also being developed by RWE?

Connecting wind farms using hydrogen pipelines to Europe, must surely mitigate the pylon opposition problem from Nimbys in the East of England.

As the AquaVentus spine pipeline could eventually connect to Peterhead, there will be other opportunities to add more hydrogen to AquaVentus.

Hydrogen Storage And AquaVentus

For AquaVentus to work efficiently and supply a large continuous flow of hydrogen to all users, there would need to be storage built into the system.

As AquaVentus is around 200 kilometres in length and natural gas pipelines can be up to 150 centimetres in diameter, don’t underestimate how much hydrogen can be stored in the pipeline system itself.

This page on the Uniper web site is entitled Green Wilhelmshaven: To New Horizons.

This is a sentence on the page.

Access to local hydrogen underground storage at the Etzel salt cavern site.

An Internet search gives the information, that Etzel gas storage could be developed to hold 1 TWh of hydrogen.

That would be enough hydrogen to supply 10 GW for a hundred hours.

Note that the UK branch of AquaVentus reaches the UK, just to the South of the massive hydrogen storage facilities at Aldbrough and Rough.

It would appear that both Germany and the UK are connected to AquaVentus through substantial storage.

I am certain, that all country connections to AquaVentus will have substantial storage at the country’s hydrogen terminal.

AquaDuctus

This would appear to be the first part of the AquaVentus network and has its own web site.

The web site is entitled Nucleus Of A Offshore Hydrogen Backbone.

These are the first two paragraphs.

The project partners are focusing on a scalable, demand-driven infrastructure: By 2030, AquaDuctus will connect the first large hydrogen wind farm site, SEN-1, with a generation capacity of approximately one gigawatt. SEN-1 is located in the German EEZ in the northwest of Helgoland. The pipeline will transport at a length of approx. 200 km green hydrogen produced from offshore wind to the German mainland and from there to European consumers via the onshore hydrogen infrastructure.

In the next project stage, AquaDuctus will be extended to the remote areas of the German exclusive economic zone towards the tip of the so-called duck’s bill. By that, additional future hydrogen wind farm sites will be connected. Along its way AquaDuctus will provide interconnection points with the opportunity for linking of adjacent national offshore hydrogen infrastructures originating from Denmark, Norway, the Netherlands, Belgium and United Kingdom which opens the door for Europe-wide offshore hydrogen transport by pipeline.

There is also an interactive map, that gives more details.

This paragraph explains, why the Germans have chosen to bring the energy ashore using hydrogen, rather than traditional cables.

Recent studies show that offshore hydrogen production and transport via pipelines is faster, cheaper, and more environmentally friendly than onshore electrolysis with a corresponding connection of offshore wind turbines via power cables. The German federal government has also recognized this advantage and has clearly expressed its intention to promote offshore hydrogen production in the North Sea.

I suspect, that some UK offshore wind farms will use the same techniques.

Hydrogen Production For The UK

Electrolysers will probably be built along the East Coast between Peterhead and Humberside and these will feed hydrogen into the network.

  • Some electrolysers will be offshore and others onshore.
  • Turning off windfarms will become a thing of the past, as all surplus electricity will be used to make hydrogen for the UK or export to Europe.
  • Until needed the hydrogen will be stored in Albrough and Rough.

Backup for wind farms, will be provided using hydrogen-fired power stations like Keadby Hydrogen power station.

Financial Implications

I reported on Rishi Sunak’s Manifesto Speech, which he made on June 11th. This is an extract

This document on the Policy Mogul web site is entitled Rishi Sunak – Conservative Party Manifesto Speech – Jun 11.

These are three paragraphs from the speech.

We don’t just need military and border security. As Putin’s invasion of Ukraine has shown, we need energy security too. It is only by having reliable, home-grown sources of energy that we can deny dictators the ability to send our bills soaring. So, in our approach to energy policy we will put security and your family finances ahead of unaffordable eco zealotry.

Unlike Labour we don’t believe that we will achieve that energy security via a state-controlled energy company that doesn’t in fact produce any energy. That will only increase costs, and as Penny said on Friday there’s only one thing that GB in Starmer and Miliband’s GB Energy stands for, and that’s giant bills.

Our clear plan is to achieve energy security through new gas-powered stations, trebling our offshore wind capacity and by having new fleets of small modular reactors. These will make the UK a net exporter of electricity, giving us greater energy independence and security from the aggressive actions of dictators . Now let me just reiterate that, with our plan, we will produce enough electricity to both meet our domestic needs and export to our neighbours. Look at that. A clear, Conservative plan not only generating security, but also prosperity for our country.

I can’t remember any reports about an energy security policy, which he outlined in the last paragraph of my extract from his speech.

He also said we would have sufficient electricity to export to our neighbours. As I said earlier some of this energy will be in the form of hydrogen, which has been created by offshore electrolysers.

If we are exporting electricity and hydrogen to Europe, this is likely to have three effects.

  • An improvement in Europe’s energy security.
  • H2ercules will improve and decarbonise German industry, using UK hydrogen.
  • The finances of UK plc will improve.

It looks like there would be winners all round.

Rishi Sunak had the cards and he played them very badly.

It is now up to Keir Starmer, Great British Energy and Jürgen Maier to play those cards to link the energy systems of the UK and Germany to ensure security and prosperity for Europe.

 

August 5, 2024 Posted by | Energy, Finance, Hydrogen | , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , | 2 Comments

Consultation On Plans For Keadby Hydrogen Power Station To Begin

The title of this post, is the same as that of this press release from SSE.

These four paragraphs outline the project

SSE and Equinor will consult on plans for a new hydrogen-fired power station in North Lincolnshire which would provide vital new reliable and flexible capacity to the electricity system.

Keadby Hydrogen Power Station is a proposed 900MW plant which could be operational from 2030 – bolstering security of supply and supporting the UK’s long-term decarbonisation by providing back-up low-carbon power to variable renewable generation.

The project will enter environmental scoping in April before SSE and Equinor launch a public consultation ahead of a full planning application being made in due course.

Under plans, the new power station will be designed to run on 100% hydrogen. The ambition is that this would be the case from inception, with Government already committed to deploying low-carbon infrastructure in the Humber – the UK’s most carbon intensive cluster.

Note.

  1. The hydrogen for this power station will be produced by electrolysis or one of the new turquoise methods.
  2. It will be stored in Aldborough or Rough gas storage.
  3. This will be the fourth power station at Keadby after Keadby 1 (734 MW), Keadby 2 (893 MW) and Keadby 3 (910 MW)
  4. Keadby 3 will be fitted with carbon capture.
  5. These total up to 3.4 GW.

The Keadby cluster of power stations will make good backup to the wind farms in the North Sea.

March 16, 2024 Posted by | Energy | , , , , , , | 2 Comments

SSE Thermal Secures 10-year Contracts For Two New Low-Carbon Power Stations In Ireland

The title of this post, is the same as that of this press release from SSE.

These first two paragraphs outline the two projects.

SSE Thermal, as part of SSE plc, has provisionally secured 10-year capacity agreements for its two proposed new-build power stations in Ireland which would run on sustainable biofuel.

The proposed low-carbon units at Tarbert in Co. Kerry and Platin in Co. Meath received the contracts in the T-4 Capacity Auction to commence in the 2026/27 delivery year.

Note.

  1. Both plants would help to protect security of supply and provide flexible backup to Ireland’s growing renewables sector.
  2. This Wikipedia entry is entitled Renewable Entry In Ireland and states that by the end of 2021, Ireland had 4.4 GW of onshore wind, with the intention of adding 5 GW of offshore wind, by 2030.
  3. The proposed units will initially run on Hydrotreated Vegetable Oil (or HVO), which is produced by processing waste oils to create a fossil-free alternative to diesel in accordance with EU sustainability standards.
  4. It looks like the two new-build HVO-powered station will back up the renewables.
  5. It is intended that the two new power stations will be in operation in 2026.

The two new power stations will be convertible to hydrogen in the future.

As at Keadby in Lincolnshire, which I wrote about in SSE Thermal Charts Path To Green Hydrogen Future With First-Of-A-Kind Project. it looks like SSE have developed a comprehensive plan to keep the electricity at full power, even when the wind isn’t blowing.

Conclusion

SSE Thermal are showing that in addition to gas, nuclear and pumped storage hydroelectric, renewables can also be backed up by biomass.

 

April 5, 2023 Posted by | Energy, Hydrogen | , , , , , , , , | 1 Comment

‘Czech Sphinx’ Power Plant Intended To Keep Lights On

The title of this post, is the same as that of this article on The Times.

This is the first paragraph.

The businessman known as the “Czech Sphinx” is set to expand his position in Britain’s energy market after securing subsidy contracts to build a new gas-fired power plant and battery storage project.

As I needed to find the answers to particular questions, I looked for and found the original press release on the EP Holdings web site, which is entitled EPH Will Build A New Gas-Fired Power Plant And Battery Storage Facility In The UK At A Cost Of More Than £1 billion.

These statements describe the project.

  • It will be a 1700MW high efficiency H-class CCGT power project and a 299MW 2-hour battery storage project
  • The power station will be built on the site of the former Eggborough coal station in East Yorkshire.

I find this to be the most significant paragraph.

The high efficiency H-class CCGT project will be the single largest flexible generation asset to be commissioned in the UK since 2012, whilst the battery project will also be one of the largest to be built in the UK to date. Given the site’s close proximity to existing National Grid infrastructure and a number of proposed CCUS and hydrogen pipeline routes, under EPUKI’s plans these projects will make a significant contribution to the UK’s energy transition and security for years to come.

This map from OpenRailwayMap, shows the relationship between the Eggborough site and the nearby Drax power station.

Note.

  1. The Eggborough power station site  is in the South-West corner of the map and is identified by the rail loop. which was used to deliver the coal.
  2. The Drax power station site is in the North-East corner of the map and is similarly identified by a rail loop.
  3. There is a high voltage transmission line connecting the two power stations.
  4. As the crow flies is about eight miles between Eggborough and Drax.

This Google Map shows the Eggborough power station site.

Note.

  1. The remains of the eight cooling towers are visible at the North of the site.
  2. The large circular black area in the middle is the coal yard with its rail loop.
  3. It is a large site.

I have looked in detail at the cleared area in the North-West of the site and the pylons of the connection to Drax are still visible.

So it looks like there is still an electrical connection of some sort to the site.

According to Wikipedia, the original coal-fired power station had a nameplate capacity of 1960 MW, so I suspect that a modernised electricity connection to handle the maximum near 2,000 MW of the new station would be possible.

This map shows the Zero Carbon Humber pipeline layout.

Note.

  1. The orange line is a proposed carbon dioxide pipeline
  2. The black line alongside it, is a proposed hydrogen pipeline.
  3. Drax, Keadby and Saltend are power stations.
  4. Keadby and Saltend are gas-fired power stations.
  5. Easington gas terminal is connected to around twenty gas fields in the North Sea.
  6. The terminal imports natural gas from Norway using the Langeled pipeline.
  7. The Rough field has been converted to gas storage and can hold four days supply of natural gas for the UK.
  8. To the North of Hull is the Aldbrough Gas Storage site, which SSE plan to convert to hydrogen storage.

The Eggborough power station site is about eight miles to the South-West of Drax.

I don’t suspect that connecting the Eggborough site to the carbon dioxide, gas and hydrogen pipelines will not be the most challenging of tasks.

So when the press release says.

Given the site’s close proximity to existing National Grid infrastructure and a number of proposed CCUS and hydrogen pipeline routes, under EPUKI’s plans these projects will make a significant contribution to the UK’s energy transition and security for years to come.

The company is not exaggerating.

It appears that carbon dioxide, gas and hydrogen pipelines can be developed and National Grid connections can be reinstated.

Eggborough Will Not Be Alone

From the EP Holdings press release, it appears that the Eggborough power station will be fitted with carbon-capture and will be hydrogen-ready.

This will make it the second power-station in the area to be fitted out in this way, after SSE’s planned Keadby 3, which is described in this page on the SSE web site in this document, which is entitled Keadby 3 Carbon Capture Power Station.

They could also be joined by Keadby Hydrogen power station.

This would mean that zero-carbon power stations in the area could include.

  • Eggborough Gas/Hydrogen – 1700 MW
  • Eggborough Battery – 299 MW
  • Keadby 3 Gas/Hydrogen – 910 MW
  • Keadby Hydrogen – 1800 MW – According to this Equinor press release.

Note.

  1. The Eggborough Battery pushes the total zero-carbon capacity over 4500 MW or 4.5 GW.
  2. The various Dogger Bank wind farms are to have a total capacity of 8 GW within ten years.
  3. The various Hornsea wind farms are to have a total capacity of 5.5 GW in a few years.

I would expect that the zero-carbon power stations would make a good fist of making up the shortfall, when the wind isn’t blowing.

Drax, Keadby 1 And Keadby 2 Power Stations

Consider.

  • Drax has a nameplate capacity of 3.9 GW, of which 2.6 GW is from biomass and the rest is from coal.
  • Keadby 1 has a nameplate capacity of 734 MW.
  • Keadby 2 has a nameplate capacity of 734 MW.

How much of this capacity will be fitted with carbon capture, to provide extra zero-carbon backup to the wind farms?

Green Hydrogen From Surplus Wind Power

At times, there will be an excess of renewable energy.

I suspect, an order for a large electrolyser will be placed soon, so that surplus renewable energy can be used to create green hydrogen.

This will be stored in the two storage facilities, that are being developed in the area; Aldbrough and Rough.

Controlling The Fleet

I am by training a Control Engineer and this fleet can be controlled to provide the electricity output required, so that the carbon-dioxide produced is minimised and the cost is at a level to the agreement of producers and users.

Conclusion

It looks like in excess of 20 GW of reliable zero-carbon energy could be available on Humberside.

I’m sure British Steel would like to by a lot of GWhs to make some green steel at Scunthorpe.

 

 

February 24, 2023 Posted by | Energy, Energy Storage | , , , , , , , , , , , , , | Leave a comment

Equinor And SSE Eye Green Hydrogen Production For 1.32 GW Dogger Bank D

The title of this post, is the same as that of this article on offshoreWIND.biz.

This is the sub-heading.

SSE Renewables and Equinor, the developers of the Dogger Bank Wind Farm in the UK, are exploring two options for Dogger Bank D, the fourth wind farm the partners are looking to build as part of the development. These include using Dogger Bank D for electricity that would feed into the UK grid and/or for green hydrogen production.

This says to me, that depending on need, electricity from the Dogger Bank Wind Farms and D in particular, can be distributed in the grid or converted into green hydrogen.

  • The article says that the electrolyser could become the UK’s largest green hydrogen project
  • There will be plenty of hydrogen storage in the salt caverns at Aldbrough, which can currently store the equivalent of 320 GWh of electricity, It is currently being expanded to be one of the largest hydrogen stores in the world according to this page on the SSE web site.
  • There are currently two gas-fired power stations at Keadby and they will in a few years be joined by a third, that will be fitted with carbon-capture and a hydrogen-fueled power station.

The various wind farms, power stations and gas storage on Humberside are growing into a very large zero-carbon power cluster, with an output approaching six GW.

Any shortfall in wind output, could be made-up by using the Keadby 3 gas-fired power station with carbon capture or the Keadby hydrogen power station.

Conclusion

Humberside is getting a cluster of power stations and wind farms, that can produce almost twice the electricity of Hinckley Point C nuclear power station.

 

February 6, 2023 Posted by | Energy, Hydrogen | , , , , , , , , , | 2 Comments

SSE Thermal Charts Path To Green Hydrogen Future With First-Of-A-Kind Project

The title of this post, is the same as that of this press release from SSE Thermal.

This is the sub-heading.

SSE Thermal is developing a first-of-a-kind project in the Humber which would unite hydrogen production, storage and power generation in one location by the middle of this decade.

These paragraphs explain the project.

The Aldbrough Hydrogen Pathfinder project will support the evidence base for wider deployment of flexible hydrogen power in the UK’s net zero journey and is a major enabler of SSE Thermal’s wider Humber ambitions.

Located at SSE Thermal and Equinor’s existing Aldbrough Gas Storage site on the East Yorkshire coast, the project is designed to demonstrate the interactions between hydrogen electrolysis, hydrogen cavern storage and 100% hydrogen dispatchable power.

The concept would see green power sourced from grid through Renewable PPAs, in compliance with the Low Carbon Hydrogen Standard. Hydrogen would then be produced via a 35MW electrolyser before being stored in a converted salt cavern and then used in a 100% hydrogen-fired turbine, exporting flexible green power back to grid at times of system need. In future, hydrogen storage will also benefit offtakers in other sectors, for example in industry, heat or transport.

Note.

  1. The Aldbrough Gas Storage site currently can store the equivalent of 320 GWh of electricity, It is currently being expanded to be one of the largest hydrogen stores in the world according to this page on the SSE web site.
  2. SSE Thermal are proposing to build a hydrogen-powered power station at Keadby to the South of the Humber. The press release says this power station could have a peak demand of 1,800MW of hydrogen.
  3. Aldbrough at its current size could keep the Keadby hydrogen-powered power station going for a week. But Aldbrough will be a lot bigger than the current 320 GWh.
  4. The Hornsea and Dogger Bank wind farms off the coast of East Yorkshire will have a capacity of at least 13.5 GW.
  5. A 35 MW electrolyser will produce 15.2 tonnes of hydrogen per day.

SSE and Equinor hope to be storing hydrogen by 2025.

Conclusion

It is an enormous project and it will surely grow with more electrolysers and hydrogen-powered power stations.

December 21, 2022 Posted by | Energy, Energy Storage, Hydrogen | , , , , , , , , | 1 Comment

Landmark CCS Project In Humber Becomes UK’s First To Gain Planning Consent

The title of this post, is the same as that of this news item on the SSE web site.

This is the first paragraph.

SSE Thermal and Equinor’s Keadby 3 Carbon Capture Power Station in the Humber has become the first power CCS project in the UK to receive planning permission.

Note.

  1. This will be one of four power stations at Keadby with Keadby 1, Keadby 2 and Keadby Hydrogen Power Station.
  2. Keadby 3 will have a capacity of 910 MW.
  3. It will capture up to 1,500,000 tonnes of carbon per year.
  4. It could be operational as early as 2027.

The news item, also says this about SSE’s other power stations and hydrogen storage.

SSE Thermal and Equinor are also collaborating on Peterhead Carbon Capture Power Station in the north-east of Scotland. In addition, they are developing Keadby Hydrogen Power Station, which could be the world’s first large-scale 100% hydrogen-fuelled power stations, and Aldbrough Hydrogen Storage, which could provide vital storage to balance intermittent supply and demand.

This all fits nicely with the proposed strategy I wrote about in Increased CCS Can Decarbonise GB Electricity Faster On Route To Net Zero.

I think we can expect more new gas-fired power stations with carbon capture to be built by SSE.

December 9, 2022 Posted by | Energy | , , , | Leave a comment

Increased CCS Can Decarbonise GB Electricity Faster On Route To Net Zero

The title of this post, is the same as that of this news item on the SSE web site.

This is the first paragraph.

Building more power carbon capture and storage plants (Power CCS) could significantly accelerate the UK’s plans to decarbonise the GB electricity system on route to net zero, according to new analysis commissioned by SSE.

I am not surprised, as in my time, I have built several production, storage and distribution mathematical models for products and sometimes bringing things forward has beneficial effects.

These three paragraphs summarise the findings.

The UK Government’s proposed emissions reductions from electricity for 2035 could be accelerated to 2030 by combining its 50GW offshore wind ambition with a significant step up in deployment of Power CCS. This would require 7-9GW (equivalent to 10-12 plants) of Power CCS compared to the current commitment of at least one Power CCS plant mid-decade, according to experts at LCP Delta.

Replacing unabated gas with abated Power CCS generation will deliver significant reductions in greenhouse gas emissions. The analysis suggests that adding 7-9GW Power CCS to the UK’s 2030 offshore wind ambition will save an additional 18 million tonnes of CO2 by 2040, by preventing carbon emissions during periods when the sun isn’t shining, and the wind isn’t blowing.

Gas consumption for electricity generation would not significantly increase, given the 7-9GW Power CCS would displace older and less efficient unabated gas power stations already operating and reduce importing unabated gas generation from abroad via the interconnectors. Importantly, Power CCS can provide a safety net to capture emissions from any gas required to keep the lights on in the event of delays to the roll out of renewables or nuclear.

The report is by LCP Delta, who are consultants based in Edinburgh.

The report says this about the transition to hydrogen.

Power CCS also presents significant opportunities to kickstart, then transition to, a hydrogen economy, benefitting from the synergies between CCS and hydrogen, including proximity to large-scale renewable generation and gas storage facilities which can support the production of both electrolytic and CCS-enabled hydrogen.

And this about the reduction in carbon emissions.

The existing renewables ambition and the accelerated Power CCS ambition are expected to save a total of 72 million tonnes of CO2 by 2040 compared to commitments in the UK’s Net Zero Strategy from October 2021.

I don’t think there’s much wrong with this analysis.

But of course the greens will trash it, as it was paid for by SSE.

I have a few thoughts.

Carbon Capture And Use

I believe we will see a great increase in carbon capture and use.

  • Carbon dioxide is already an ingredient to make Quorn.
  • Carbon dioxide is needed for fizzy drinks.
  • Carbon dioxide can be fed to tomatoes, salad plants, herbs and flowers in giant greenhouses.
  • Carbon dioxide can be used to make animal and pet food.
  • Carbon dioxide can be used to make building products like plasterboard and blocks.
  • Carbon dioxide can be added to concrete.
  • Carbon dioxide can be used as a refrigerant and in air-conditioning. There are one or two old Victorian systems still working.

Other uses will be developed.

Carbon Capture Will Get More Efficient

Carbon capture from power stations and boilers, that use natural gas is a relatively new process and its capture will surely get better and more efficient in the next few years.

Gas From INTOG

I explain INTOG in What Is INTOG?.

One of INTOG’s aims, is to supply electricity to the oil and gas rigs and platforms in the sea around the UK.

Currently, these rigs and platforms, use some of the gas they produce, in gas turbines to create the electricity they need.

  • I have seen reports that ten percent of the gas that comes out of the ground is used in this way.
  • Using the gas as fuel creates more carbon dioxide.

Decarbonisation of our oil and gas rigs and platforms, will obviously be a good thing because of a reduction of the carbon dioxide emitted. but it will also mean that the gas that would have been used to power the platform can be brought ashore to power industry and domestic heating, or be exported to countries who need it.

Gas may not be carbon-neutral, but some gas is more carbon-neutral than others.

SSE’s Plans For New Thermal Power Stations

I have taken this from SSE’s news item.

SSE has deliberately chosen to remain invested in the transition of flexible thermal electricity generation due to the key role it plays in a renewables-led, net zero, electricity system and is committed to decarbonising the generation.

Together with Equinor, SSE Thermal is developing two power stations equipped with carbon capture technology. Keadby 3 Carbon Capture Power Station is based in the Humber, the UK’s most carbon-intensive industrial region, while Peterhead Carbon Capture Power Station is located in the North East of Scotland. Combined, the two stations could capture around three million tonnes of CO2 a year.

Studies have shown that Keadby and Peterhead Carbon Capture Power Stations could make a lifetime contribution of £1.2bn each to the UK economy, creating significant economic opportunity in their respective regions. Both will be vital in supporting the huge amount of renewables which will be coming on the system.

SSE Thermal and Equinor are also collaborating on Keadby Hydrogen Power Station, which could be one of the world’s first 100% hydrogen-fuelled power stations, and Aldbrough Hydrogen Storage, which could be one of the world’s largest hydrogen storage facilities.

Note.

  1. SSE appear to think that gas-fired power stations with carbon capture are an ideal backup to renewables.
  2. If gas is available and it can be used to generate electricity without emitting any carbon dioxide, then why not?
  3. Hydrogen is coming.

Things will get better.

Is A Virtuous Circle Developing?

Consider.

  • Spare wind electricity is turned into hydrogen using an electrolyser or perhaps some world-changing electro-chemical process.
  • The hydrogen is stored in Aldbrough Hydrogen Storage.
  • When the wind isn’t blowing, hydrogen is used to backup the wind in Keadby Hydrogen power station.
  • The other Keadby power stations can also kick in using natural gas. The carbon dioxide that they produce, would be captured for storage or use.
  • Other users, who need to decarbonise, can be supplied with hydrogen from Aldbrough.

Note.

  1. Gas turbines are throttleable, so if National Grid wants 600 MW to balance the grid, they can supply it.
  2. As time progresses, some of the gas-fired power stations at Keadby could be converted to hydrogen.
  3. Rough gas storage is not far away and could either store natural gas or hydrogen.
  4. Hydrogen might be imported by tanker from places like Africa and Australia, depending on price.

Humberside will be levelling up and leading the decarbonisation of the UK.

If you have an energy-hungry business, you should seriously look at moving to Humberside.

 

December 7, 2022 Posted by | Energy, Energy Storage, Hydrogen | , , , , , , , , , , , , , , , | 1 Comment

The Lincolnshire Wind Powerhouse

In August 2022, reports started to appear about the Outer Dowsing Wind Farm, like this article on offshoreWIND.biz, which is entitled Corio, Total Submit Scoping Report For 1.5 GW Outer Dowsing Offshore Wind Project.

There is now a web site.

  • Outer Dowsing Offshore Wind  is a 1.5GW project located approximately 54km off the Lincolnshire coast.
  • It is a joint project between TotalEnergies and Corio Generation.

This map from the Outer Dowsing Wind Farm web site, shows the location of the wind farm.

These are the sizes of the various windfarms, that are shown on the map.

  • Dudgeon – 402 MW
  • Hornsea 1 – 1218 MW
  • Hornsea 2 – 1386 MW
  • Hornsea 3 – 2852 MW
  • Hornsea 4 – 1000 MW – Not shown on map.
  • Humber Gateway – 219 MW
  • Lincs – 270 MW
  • Lynn and Inner Dowsing – 194 MW
  • Norfolk Vanguard West – No information, but Norfolk Vanguard is 1800 MW
  • Outer Dowsing – 1500 MW
  • Race Bank – 580 MW
  • Sheringham Shoal – 317 MW
  • Sheringham Shoal and Dudgeon Extensions – 719 MW
  • Triton Knoll – 857 MW
  • Westernmost Rough – 210 MW

Note that these total up to 11724 MW, but with Norfolk Vanguard the total is 135224 MW.

Gas-Fired Power Stations

There are also several active gas-fired power stations.

  • Immingham – 1240 MW
  • Keadby – 734 MW
  • Keadby 2 – 893 MW
  • Keadby 3 – 910 MW – Planned to be fitted with carbon capture.
  • Saltend – 1200 MW
  • South Humber Bank – 1365 MW
  • Spalding – 860 MW
  • Sutton Bridge – 819 MW

Note that these total up to 8021 MW.

Viking Link

The Viking Link is a 1.4 GW interconnector, that links Bicker Fen in Lincolnshire and Denmark, that should be operational at the end of 2023.

Gas Storage

There are two major gas storage facilities in the rea.

Both will eventually be converted to store hydrogen, which could be used by local industrial users or the proposed hydrogen power station at Keadby.

November 21, 2022 Posted by | Energy, Hydrogen | , , , , , , , , , , , | 1 Comment

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