The Anonymous Widower

Cold Snap Leaves Britain With Less Than A Week’s Worth Of Gas

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

This is the sub-heading.

The closure of Russian pipelines through Ukraine and recent weather conditions have left gas stores ‘concerningly low’

These are the first two paragraphs.

Britain has less than a week of gas supplies in storage, the country’s largest supplier has warned after plunging temperatures and high demand.

Centrica, the owner of British Gas, said the UK’s gas storage was “concerningly low” after coming under pressure this winter.

The two largest gas storage facilities in this country are both in the Humberside area.

  • Aldbrough is in salt caverns North of Hull and is owned by SSE.
  • Rough is under the North Sea and is owned by Centrica

Both are being converted to store hydrogen.

Some might thing that is a bit stupid if we’re short of storage, but we need the hydrogen storage for four reasons.

  1. To store hydrogen created by electrolysers on Humberside, which will enable heavy gas users in the area to decarbonise.
  2. The hydrogen will also be burnt in a 1 GW hydrogen-fired power station at Keadby to back up the wind turbines, with zero-carbon electricity.
  3. The hydrogen will also be sold to the Germans to replace Putin’s blood-stained gas. It will be sent to Germany in a pipeline called AquaVentus, which will also deliver Scottish hydrogen across the North Sea. Hopefully, the Germans will pay a good price for the hydrogen.
  4. The hydrogen will be used for transport.

The mistake the Government is making is not to develop smaller gas fields, so that domestic gas users can continue to use natural gas, until the technology to replace it with zero-carbon sources is fully developed.

January 10, 2025 Posted by | Energy, Energy Storage, Hydrogen | , , , , , , , , , , | 1 Comment

Large Scale Hydrogen Storage Sites Could Reduce Customer Energy Costs By £1bn Per Year

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

These four paragraphs summarise the report.

Centrica and FTI report finds that hydrogen storage would help balance the UK’s energy system and reduce bills.

A net zero scenario including large scale hydrogen storage – specifically, a redeveloped Rough gas storage facility – would reduce energy costs by an additional £1bn per year by 2050.

Report also finds that a UK energy system focused on renewable generation risks high levels of intermittency without an established hydrogen market. By 2050, electricity generation from renewables could exceed total demand around 15% of the time.

Electricity generation from renewables could also rise or fall by as much as 100GW over the course of a single day. More than twice current levels of peak demand on winter evenings and the equivalent energy output from over 30 Hinkley Point C nuclear power stations.

Note.

  1. Hydrogen Central entitles their article about the Centrica press release Centrica Says Hydrogen Can Reduce Household Bills by £35 a Year. That’s almost a bottle of my favourite Adnams beer a week!
  2. I talked about the redevelopment of the Rough facility into hydrogen storage in Aberdeen’s Exceed Secures Centrica Rough Contract.
  3. Generating hydrogen from excess electricity and storing it until it is needed, must be an efficient way of storing electricity or powering industrial processes that need a lot of energy, if storing hydrogen makes £1bn per year!
  4. It should be noted that Centrica have a large interest in HiiROC, who are developing an efficient way to generate hydrogen from any hydrocarbon gas from chemical plant off-gas through biomethane to natural gas. In a perfect world a HiiROC system in a sewage works could capture the biomethane and split it into hydrogen and carbon black. The hydrogen could be used to refuel vehicles and the carbon black would be taken away to someone, who has need of it.

In some ways, it is surely sensible to have enough energy in a store, if the renewables fail. As Rough is already there and functioning, it is surely one of the easiest routes to redevelop Rough, so that it is in top-quality condition.

It should also be noted, that Rough is not far from the Aldbrough Gas Storage, which SSE are converting to a second massive hydrogen store.

So Humberside will have two of the largest hydrogen stores in the world, which Centrica and SSE will use to maxise energy security in the wider Humberside and East Yorkshire area, and I suspect to maximise their profits as well.

This video shows the structure of AquaVentus, which is a pipeline system, that the Germans are building to bring much-needed hydrogen to German industry from electrolysers in the North Sea and other countries like Denmark, Norway, the Netherlands and the UK.

I clipped this map from the video.

Note how a branch of AquaVentus makes landfall around the Humber estuary at a UK label.

Will Centrica and SSE be trading hydrogen from Rough and Aldbrough with the Germans through AquaVentus? You bet they will, as the Germans are short of both hydrogen and hydrogen storage.

 

November 23, 2024 Posted by | Energy, Energy Storage, Hydrogen | , , , , , , , | 2 Comments

Aberdeen’s Exceed Secures Centrica Rough Contract

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

This is the sub-heading.

Well and reservoir management firm Exceed has secured a contract with Centrica Energy Storage for the redevelopment of the Rough gas storage field.

This is the introductory paragraph.

Exceed said its role in the initial stages of the project, which is exploring converting the Rough field into a hydrogen storage facility, could create more than 30 jobs.

In Wood To Optimise Hydrogen Storage For Centrica’s Rough Field, I talked about changing Rough from a gas to a hydrogen store, so it looks like Centrica are going to create a vast hydrogen storage facility.

This all fits with my belief, that Centrica’s Rough facility and SSE’s nearby Aldbrough storage facility, will at sometime in the future be connected to the Germany hydrogen pipeline; AquaVentus to perform backup to hydrogen produced in the North Sea.

I also feel that the hydrogen trading will be of benefit to Centrica and SSE.

The last section of the Energy Voice article is entitled Rough Hydrogen Storage Concerns.

The following facts are given.

There are currently eight geological gas storage sites across Great Britain, containing approximately 3.1bcm in capacity and maximum deliverability rates of 124mcm/day.

Five of these gas storage sites are in salt caverns while the remaining three are depleted oil and gas fields, with the Centrica’s Rough field in the North Sea the only site located offshore.

The British Geological Survey estimates the UK could store up to 3,000 TWh of hydrogen.

Currently, we use the following energy in a year.

  • 263 TWh of electricity
  • 705 TWh of natural gas

So we use a total of 968 TWh of energy.

3,000 TWh of hydrogen would keep the UK going for three years. So we should be fine!

November 4, 2024 Posted by | Energy, Energy Storage, Hydrogen | , , , , , , , , | 3 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

Jurgen Maier To Chair Great British Energy

This article in The Times is entitled Pylons Are The Price Of Lower Bills, Keir Starmer Tells Rural Britain.

 These are two paragraphs from the article.

Starmer confirmed that Jürgen Maier, the former UK chief executive of the Siemens conglomerate, would chair the energy company.

Maier has advised Labour on rail and transport since December. He was openly critical of the party’s decision to drop a pledge to spend £28 billion a year on green investment, saying the figure was an “absolute minimum” and that scrapping the promise was “not good for climate change or for the growth of our economy”.

Note.

  1. His Wikipedia entry is impressive.
  2. He has dual Austrian and British citizenship.
  3. He went to school in Leeds and is a graduate of Nottingham Trent University.
  4. He rose to be Chief Executive of Siemens UK and retired in 2019 at 55.
  5. I have heard him several times on the radio and he seems to talk a lot of sense.

In my view he could be an excellent choice as Chair of Great British Energy.

I also have some further thoughts.

Jürgen Maier And Peter Hendy

Jürgen Maier and Peter Hendy, who is Starmer’s Rail Minister, have remarkably similar backgrounds and I wouldn’t be surprised if they know each other well, through dealings around Siemens’ contract for Transport for London’s new trains for the Piccadilly Line.

When last, were two technological heavyweights, so close to the heart of a UK government?

RWE

German energy company; RWE are the UK’s largest power generator.

  • RWE have five gas-fired power stations with a total output of 6.56 GW.
  • RWE have two onshore wind farms in operation with a total output of 67 MW.
  • RWE have four offshore wind farms in operation with a total output of 1.88 GW.
  • RWE have eight offshore wind farms under development with a total output of 9.90 GW.
  • RWE also has other electrical gubbins, like an electrolyser in South Wales.

Would Jürgen Maier be an ideal person, to persuade RWE to keep investing in the UK?

When he was with Siemens, he certainly invested heavily in the UK.

The German Problem

Germany’s problem is how they generate electricity.

Sources are as follows for Germany and the UK.

  • Coal – 26 % – 1 %
  • Natural Gas – 10.5 % – 32 %
  • Wind – 32 % – 29.4 %
  • Solar 12.2 % – 4.9 %
  • Biomass – 9.7 % – 12.3 %
  • Nuclear – 1.5 % – 14.2 %
  • Hydro – 4.5 % – 1.8 %
  • Oil – 0.7 % – 0 %
  • Other – 2.9 % – 0 %
  • Storage – 0 % – 1 %
  • Imports – 0 % – 10.7 %

Note.

  1. Figures are for 2023.
  2. Germany is the first percentage.
  3. UK is the second percentage.
  4. Germany has pledged to end coal-fired electricity production by 2030.
  5. Both countries seem to generate similar amounts of electricity from wind, biomass and hydro.

To replace the coal and make up for lack of nuclear, Germany needs to find a new power source.

The German Solution

The Germans are going for hydrogen in a big way.

The title of this page of the RWE web site is Welcome To The Age Of Hydrogen.

The page starts with this paragraph.

RWE is actively involved in the development of innovative hydrogen projects. The H2 molecule is considered to be an important future building block of a successful energy transition. RWE is a partner in over 30 H2 projects and is working on solutions for decarbonising the industry with associations and corporations like Shell, BASF and OGE. Hydrogen projects are comprehensively supported in the separate Hydrogen department of the subsidiary RWE Generation.

I also suggest, that you read this page on the RWE web site called AquaVentus.

The page starts with this RWE graphic.

It appears that 10.3 GW of hydrogen will be created by wind farms and piped to North-West Germany.

These two paragraphs outline the AquaVentus initiative .

Hydrogen is considered the great hope of decarbonisation in all sectors that cannot be electrified, e.g. industrial manufacturing, aviation and shipping. Massive investments in the expansion of renewable energy are needed to enable carbon-neutral hydrogen production. After all, wind, solar and hydroelectric power form the basis of climate-friendly hydrogen.

In its quest for climate-friendly hydrogen production, the AquaVentus initiative has set its sights on one renewable energy generation technology: offshore wind. The initiative aims to use electricity from offshore wind farms to operate electrolysers also installed at sea on an industrial scale. Plans envisage setting up electrolysis units in the North Sea with a total capacity of 10 gigawatts, enough to produce 1 million metric tons of green hydrogen.

The page also gives these numbers.

  • Total Capacity – 10 GW
  • Tonnes Of Green Hydrogen – 1 million
  • Members – 100 +

The web site says this about commissioning.

Commissioning is currently scheduled for early/mid 2030s.

The Germans can’t be accused of lacking ambition.

AquaVentus And The UK

This video shows the structure of AquaVentus.

I clipped this map from the video.

Note.

  1. There is a link to Denmark.
  2. There appears to be a undeveloped link to Norway.
  3. There appears to be a  link to Peterhead in Scotland.
  4. There appears to be a link to just North of the Humber in England.
  5. Just North of the Humber are the two massive gas storage sites of Aldbrough owned by SSE and Brough owned by Centrica.
  6. There appear to be small ships sailing up and down the East Coast of the UK. Are these small coastal tankers 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.

AquaVentus And Aldbrough And Rough Gas Storage

Consider.

It looks like the East Riding Hydrogen Bank, will be playing a large part in ensuring the continuity and reliability of AquaVentus.

Dogger Bank South And AquaVentus

This Google Map shows the North Sea South of Sunderland and the Danish/German border.

Note.

  1. Sunderland is in the top-left hand corner of the map.
  2. A white line in the top-right corner of the map is the Danish/German border.
  3. Hamburg and Bremen are in the bottom-right hand corner of the map.

If you lay the AquaVentus map over this map, I believe that RWE’s Dogger Bank South wind farm could be one of the three 2 GW wind farms on the South-Western side of the AquaVentus main pipeline.

  • Two GW would be converted to hydrogen and fed into the AquaVentus main pipeline.
  • Two GW of hydrogen will be a nice little earner for UK plc.
  • One GW of electricity would be sent to the UK.

But this is only one of many possibilities.

Conclusion

Could Jürgen Maier, be the man to develop British links to AquaVentus for the benefit of both the UK and Germany?

  • The UK’s wind farms could provide a lot of hydrogen for AquaVentus.
  • Aldbrough And Rough Gas Storage are conveniently places to add the hydrogen storage, that AquaVentus needs.
  • AquaVentus can certainly be expanded to Norway, and possibly Orkney and Shetland.

He certainly has a lot of relevant experience.

 

 

 

July 30, 2024 Posted by | Energy, Hydrogen | , , , , , , , , , , , , , | Leave a comment

3 GW Dogger Bank South Offshore Wind Farms Reach New Development Stage

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

This is the sub-heading.

The UK Planning Inspectorate has accepted into the examination phase the Development Consent Order (DCO) application for the Dogger Bank South (DBS) Offshore Wind Farms developed by RWE and Masdar.

The first two paragraphs give a brief description of the wind Farm.

The DBS East and DBS West offshore wind farms, which could provide electricity for up to three million typical UK homes, are located in shallow waters on the Dogger Bank over 100 kilometres off the northeast coast of England. The acceptance of the DCO application moves the projects into the pre-examination phase, which will become subject to a public examination later in 2024.

Together, the projects will have up to 200 turbines with a combined estimated capacity of 3 GW. Investment by RWE and Masdar during development and construction is predicted to deliver an economic contribution (Gross Value Added) to the UK of almost GBP 1 billion, including GBP 400 million in the Humber region.

There is a detailed map in the article on offshoreWIND.biz.

The Next Steps

These are given in the article.

The next steps for the projects, following a successful Development Consent Order, would be to secure Contracts for Difference (CfD), followed by financing and construction, the developers said.

It certainly looks like the 3 GW Dogger South Bank Wind Farm is on its way.

These are my thoughts about the project.

The Turbines To Be Used

The article says this about the turbines.

Together, the projects will have up to 200 turbines with a combined estimated capacity of 3 GW.

This means that the turbines will be 15 MW.

In RWE Orders 15 MW Nordseecluster Offshore Wind Turbines At Vestas, I said this.

Does this mean that the Vestas V236-15.0 MW offshore wind turbine, is now RWE’s standard offshore turbine?

This would surely have manufacturing, installation, operation and maintenance advantages.

There would surely be advantages for all parties to use a standard turbine.

It’s A Long Way Between Yorkshire And The Dogger Bank

The article says it’s a hundred kilometres between the wind farm and the coast of Yorkshire.

Welcome To The Age Of Hydrogen

This is the title of this page of the RWE web site.

The page starts with this paragraph.

RWE is actively involved in the development of innovative hydrogen projects. The H2 molecule is considered to be an important future building block of a successful energy transition. RWE is a partner in over 30 H2 projects and is working on solutions for decarbonising the industry with associations and corporations like Shell, BASF and OGE. Hydrogen projects are comprehensively supported in the separate Hydrogen department of the subsidiary RWE Generation.

AquaVentus

I also suggest, that you read this page on the RWE web site called AquaVentus.

The page starts with this RWE graphic.

It appears that 10.3 GW of hydrogen will be created by wind farms and piped to North-West Germany.

These two paragraphs outline the AquaVentus initiative .

Hydrogen is considered the great hope of decarbonisation in all sectors that cannot be electrified, e.g. industrial manufacturing, aviation and shipping. Massive investments in the expansion of renewable energy are needed to enable carbon-neutral hydrogen production. After all, wind, solar and hydroelectric power form the basis of climate-friendly hydrogen.

In its quest for climate-friendly hydrogen production, the AquaVentus initiative has set its sights on one renewable energy generation technology: offshore wind. The initiative aims to use electricity from offshore wind farms to operate electrolysers also installed at sea on an industrial scale. Plans envisage setting up electrolysis units in the North Sea with a total capacity of 10 gigawatts, enough to produce 1 million metric tons of green hydrogen.

The page also gives these numbers.

  • Total Capacity – 10 GW
  • Tonnes Of Green Hydrogen – 1 million
  • Members – 100 +

The web site says this about commissioning.

Commissioning is currently scheduled for early/mid 2030s.

The Germans can’t be accused of lacking ambition.

AquaVentus And The UK

This video shows the structure of AquaVentus.

I clipped this map from the video.

Note.

  1. There is a link to Denmark.
  2. There appears to be a undeveloped link to Norway.
  3. There appears to be a  link to Peterhead in Scotland.
  4. There appears to be a link to just North of the Humber in England.
  5. Just North of the Humber are the two massive gas storage sites of Aldbrough owned by SSE and Brough owned by Centrica.
  6. There appear to be small ships sailing up and down the East Coast of the UK. Are these small coastal tankers 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.

AquaVentus And Aldbrough And Rough Gas Storage

Consider.

It looks like the East Riding Hydrogen Bank, will be playing a large part in ensuring the continuity and reliability of AquaVentus.

Dogger Bank South And AquaVentus

This Google Map shows the North Sea South of Sunderland and the Danish/German border.

Note.

  1. Sunderland is in the top-left hand corner of the map.
  2. A white line in the top-right corner of the map is the Danish/German border.
  3. Hamburg and Bremen are in the bottom-right hand corner of the map.

If you lay the AquaVentus map over this map, I believe that Dogger Bank South wind farm could be one of the three 2 GW wind farms on the South-Western side of the AquaVentus main pipeline.

  • Two GW would be converted to hydrogen and fed into the AquaVentus main pipeline.
  • One GW of electricity would be sent to the UK.

But this is only one of many possibilities.

Hopefully, everything will be a bit clearer, when RWE publish more details.

Conclusion

I believe, that some or all of the Dogger Bank South electricity, will be converted to hydrogen and fed into the AquaVentus main pipeline.

I also believe, that the hydrogen stores in the East Riding of Yorkshire, will form an important part of AquaVentus.

July 12, 2024 Posted by | Energy, Hydrogen | , , , , , , , , , , , , | 1 Comment

Wood To Optimise Hydrogen Storage For Centrica’s Rough Field

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

These are the first three paragraphs.

Wood, a global leader in consulting and engineering, has been awarded a contract by Centrica Energy Storage (CES) for the redevelopment of the UK’s Rough field in readiness for future hydrogen storage.

The Rough reservoir, located in the Southern North Sea, has been used to store natural gas safely for over thirty years and has the potential to provide over half of the UK’s hydrogen storage requirements.

The front-end engineering design (FEED) contract, awarded to Wood, entails new pipelines, a new unmanned installation, as well as onshore injection facilities at the Easington Gas Terminal, is the first step in making the field hydrogen ready.

Offshore Magazine has this article about the deal, which is entitled Wood Assessing Hydrogen Storage Needs For North Sea Rough Reservoir.

This is a paragraph from the Offshore Magazine article.

Centrica aims to position the Rough Field as the world’s largest long-duration hydrogen storage facility, although FID on the redevelopment project would depend on government support.

It would be a very important project.

Why would Centrica be planning for this massive increase in hydrogen storage?

There could only be one reason.

There is going to be a massive increase in hydrogen production and use.

In Where’s The Plan, Rishi?, I laid out what I believe will happen in the next few years.

  1. In RWE Goes For An Additional 10 GW Of Offshore Wind In UK Waters In 2030, I detailed how RWE intended to add an extra 10 GW of offshore wind to the seas around the UK.
  2. As our current offshore wind capacity is around 15 GW, so another 10 GW would surely be very welcome.
  3. The Germans will develop H2ercules, which is their massive  project to create a hydrogen network to bring hydrogen to Southern Germany.
  4. A hydrogen hub at Wilhelmshaven is being built by Uniper to feed H2ercules with green hydrogen from around the world.

But would it not be better, if instead of feeding H2ercules with hydrogen from around the world, some came from the UK, a few hundred miles across the North Sea?

  • RWE are developing the 3 GW Dogger Bank South wind farm, which is not in the best place for a cable to the UK. So could this wind farm have an offshore electrolyser and send the hydrogen to Wilhelmshaven, by pipeline or coastal tanker?
  • RWE are also developing the 4.2 GW Norfolk cluster of wind farms to the North-East of Great Yarmouth. It might be better, if the output of these wind farms took a hydrogen route to Wilhelmshaven.
  • I also believe that a third offshore electrolyser might be situated North of the Wash to bring more hydrogen to Germany.
  • Hydrogen could also be sent from the Rough facility to Wilhelmshaven.

The coastal tanker route gives flexibility, so green hydrogen could be sent as required to the UK mainland.

Rishi Sunak’s Manifesto Speech – June 11

I also 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.

It is now nineteen days since Rishi made that speech and 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 particularly mentioned.

  • New gas-powered stations
  • Trebling our offshore wind capacity
  • Having new fleets of small modular reactors.

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 will be winners all round.

Conclusion

Centrica’s plan for a massive hydrogen store at Rough, close to SSE’s existing gas storage in the salt caverns at Aldbrough, would appear to make sense, if the UK’s excess of offshore wind is converted into green hydrogen, which is then stored and distributed as needed.

June 28, 2024 Posted by | Energy, Energy Storage, Hydrogen | , , , , , , , , , , , | 4 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

Hydrogen Business Model / Net Zero Hydrogen Fund: Shortlisted Projects Allocation Round 2022

The title if this post, is the same as this notice from the Department of Energy Security and Net Zero.

These are the the first three paragraphs.

The shortlist contains the following electrolytic hydrogen projects, totalling 408MW of capacity across England, Scotland and Wales.

Projects that have not been shortlisted for this allocation round are encouraged to submit updated bids for the second allocation round – see more details.

We expect to award contracts totalling up to 250MW of capacity from HAR1, subject to affordability and value for money. We aim for contracts to be awarded in Q4 2023, with first projects becoming operational in 2025.

Note.

  1. A rough calculation says that 408 MW of electrolysers could product about 177 tonnes of hydrogen per day.
  2. It’s not long to the fourth quarter of 2023, when hopefully we shall know more.

These are the seventeen shortlisted projects.

Aldbrough Hydrogen Pathfinder

Aldbrough Hydrogen Pathfinder is being developed by SSE Thermal in Yorkshire.

This paragraph outlines the operation of the Aldbrough Hydrogen Pathfinder.

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.

Initial storage at Aldbrough could be as high as 320 GWh.

I went to see their presentation in June and wrote about my visit in Did I See The UK’s Hydrogen-Powered Future In Hull Today?.

Barrow Green Hydrogen

Barrow Green Hydrogen is being developed by Carlton Power in North West England.

The Barrow Green Hydrogen project has its own web site, where this is the introductory paragraph.

Barrow Green Hydrogen is an industry leading project, that will use renewable energy to produce green hydrogen fuel which will decarbonise industry, and in the future, transport and heating. The development will have an initial capacity of 35 MW, which will produce enough hydrogen to heat the equivalent of 14,000 homes. The project has the potential to expand to several hundred megawatts.

There is also a section, that is entitled; Why Barrow?, where this is said.

Barrow-in-Furness is ideally located because the area has several industrial sites, which are able to take green hydrogen without extensive modification to decarbonise their operations, which otherwise rely on natural gas. Further to this, it is well placed to serve commercial applications in other areas of Cumbria, once the project is scaled up and these applications become hydrogen ready. The site in Barrow is also well positioned to use renewable electricity from existing installations and will also enable additional new generation capacity to be installed.

In Government Hydrogen Boost To Help Power Kimberly-Clark Towards 100% Green Energy Target, I explain how this hydrogen hub will supply one of Kimberly-Clark’s factories with hydrogen to replace natural gas.

 

Bradford Low Carbon Hydrogen

Bradford Low Carbon Hydrogen is being developed by Hygen in Yorkshire.

These paragraphs from this press release on the Hygen web site outline the operation of Bradford Low Carbon Hydrogen.

A partnership between gas distributor Northern Gas Networks (NGN) and clean energy pioneers Hygen Energy (Hygen) and Ryze Hydrogen for an ambitious low carbon hydrogen production and dispensing facility in the heart of Bradford has been shortlisted for government funding.

NGN, the gas distributor for the North East, Cumbria and much of Yorkshire, is carrying out the project in a Joint Venture with the two companies.

The project will be built on NGN’s decommissioned gas storage site of Bowling Back Lane in the heart of Bradford. It will deliver one of the UK’s largest low carbon hydrogen production facilities with a clear objective of using renewable energy to power an electrolyser which will produce clean hydrogen. The site will also have on-site refuelling for hydrogen vehicles, EV charging, and a low carbon technology education centre. Residents and businesses in West Yorkshire will be able to use the refuelling facilities, with Ryze distributing hydrogen to industrial users across the region.

Note.

  1. The press release has an excellent visualisation of the project.
  2. Using a site that was previously used for gas storage, must give advantages in designing the project and its operational procedures.
  3. If anybody knows the capacity, please tell me!

It looks like a hydrogen facility for all of Bradford, its citizens and its businesses.

Cheshire Green Hydrogen

Cheshire Green Hydrogen is being developed by Progressive Energy Net Zero in North West England.

This press release from HyNet NorthWest gives these details.

HyNet partner, Progressive Energy, Statkraft and Foresight, will be working together to jointly develop a suite of green (‘electrolytic’) hydrogen projects in the North West of England.

This includes the proposed 28 megawatt (MW) Cheshire Green Hydrogen project which will use renewable electricity from Frodsham wind farm in Cheshire. This will generate green hydrogen which will supply low carbon hydrogen via the HyNet project’s planned pipeline.

The initial phase of 100MW of projects will reduce carbon dioxide emissions from industry by up to 180,000 tonnes.

The initial capacity will be 28 MW.

Commercial Scale Demonstrator

Commercial Scale Demonstrator is being developed by ERM Dolphyn in Scotland.

There is not much specific information on the ERM Dolphyn web site.

Cromarty Hydrogen Project

Cromarty Hydrogen Project is being developed by Pale Blue Dot Energy in Scotland.

This paragraph describes the Cromarty Hydrogen Project.

The facility would have a maximum output of up to 50 megawatt (MW) although this is likely to be limited in the first instance to around 30MW and be able to produce up to 20,000 kg of green hydrogen per day. The facility will have multiple electrolysers feeding on-site low pressure storage containers. The hydrogen will then be compressed onto tube trailers for transportation off-site to customers. It is our intention to use low or zero carbon fuels for the hydrogen transport vehicles wherever possible.

There is a lot of information on the web site.

Gigastack

Gigastack is being developed by Phillips 66 in North East England.

The Gigastack web site appears to be lacking in updates.

Gordonbush Hydrogen Project (GBH2)

Gordonbush Hydrogen Project is being developed by SSE Renewables in Scotland.

The proposed development is introduced like this.

The proposed development comprises a green hydrogen production facility. This would be located within the existing infrastructure of Gordonbush Wind Farm.

At this stage, the detailed design has not been fully developed and a level of refinement of the scheme is expected prior to submission of the planning application.

As with much of what SSE Renewables does, it seems a very professional project.

Green Hydrogen 1, 2 And 3

I’ll discuss these three projects together.

  • Green Hydrogen 1 is being developed by RES and Octopus Renewables in Scotland.
  • Green Hydrogen 2 is being developed by RES and Octopus Renewables in Wales.
  • Green Hydrogen 3 is being developed by RES and Octopus Renewables in South East England.

RES and Octopus Renewables have formed a joint company called Hyro.

On the Hyro web site, this is said on the opening page.

Market Leaders Coming Together For Decarbonisation

HYRO is a joint venture between Octopus Energy Generation and RES

RES is the world’s largest independent renewable energy developer – having delivered 23GW of generation in 11 countries.

Octopus Energy Generation is one of Europe’s largest investors in renewable energy. The team manages over 3GW of green power assets worth £5bn across 11 countries. It’s the generation arm of Octopus Energy Group, the global energy tech pioneer, using technology to unlock a customer focused and affordable green energy revolution.

That’s not a bad opening statement.

In Government Hydrogen Boost To Help Power Kimberly-Clark Towards 100% Green Energy Target, I explain how Green Hydrogen 2 and 3 will supply two of Kimberly-Clark’s factories with hydrogen to replace natural gas.

The initial capacity of Green Hydrogen 2 and 3 will be 50 MW. So will Green Hydrogen 1, 2 and 3 all be 25 MW electrolysers?

I wouldn’t be surprised to see Hyro doing more deals with large natural gas users.

H2 Production Plant at High Marnham

H2 Production Plant at High Marnham is being developed by J G Pears in the East Midlands of England.

J G Pears is the driver here and the About page of their web site is a must-read.

This section describes their approach.

From our humble beginnings, we have grown to become one of the largest businesses in the UK animal by-products sector. We’ve achieved this thanks to constant innovation and investment plus a relentless focus on building relationships with customer and partner businesses.

Innovation, investment and customer focus.

We actively look for new and better ways to work, and invest continuously in new ideas and processes. We plan everything we do around the twin goals of making our operations as clean and green as possible and delivering products and services that meet customer needs.

And this section details their story.

We started as a family business, and we’re still a family business. But today, our family now includes a group of companies, customers and suppliers worldwide, and a large workforce across our various sites.

The story starts in 1972, with the Pears family developing a livestock farming business in and around Penistone, South Yorkshire.

As time went on, the family farming business diversified into animal by-product and food waste collection services. More recently we added two by-product processing facilities to the Group’s activity portfolio. This ensures complete control of our end to end collection and processing services.

The original family farm in Penistone is still very much part of the business, continuing our farming heritage and housing the Group’s head office.

They’ve recently added a combined heat and power plant (CHP).

These two paragraphs describe how they use the CHP.

The CHP plant generates renewable energy by providing steam and electricity to our existing businesses as well as exporting its excess electrical power to the National Grid.

This biomass-fired CHP plant will use meat and bone meal (MBM) to replace over 90% of the fossil fuels used in the current business processes. MBM is a sustainable alternative with a calorific value of the same magnitude as coal, meaning that more than 150,000 tonnes of carbon dioxide will be saved per year. MBM can also be sourced more locally than the fuels currently used, which in turn reduces carbon emissions from transport and transport kilometres.

It’s a new one on me, to use meat and bone meal to replace coal.

Their services and products are worth a look.

The company are certainly proof of the old Yorkshire saying of “Where there’s muck there’s brass!”

HyBont

HyBont is being developed by Marubeni Europower on Wales.

Hybont has a comprehensive web site, where this is said about the concept.

We are developing plans for a green hydrogen production and refuelling facility at Brynmenyn Industrial Estate, partially powered by a solar farm at Bryncethin.

A wide number of uses for the hydrogen, including vehicle fuelling are proposed.

HyGreen Teesside

HyGreen Teesside is being developed by BP Alternative Energy Investments in North East England.

HyGreen Teesside has a comprehensive web site, where this is said about the project.

HyGreen Teesside aims to be one of the biggest green hydrogen production facilities in the UK. Green hydrogen is made by electrolysing water using power from low carbon energy sources such as solar or wind.

Located in Teesside, HyGreen Teesside is targeting 80MWe of green hydrogen capacity by 2025 – and targeting growth to 500 MW by 2030, delivering up to 5% of the UK government’s hydrogen target of 10GW by 2030.

It is eventually going to be a large electrolyser.

Langage Green Hydrogen

Langage Green Hydrogen is being developed by Carlton Power in South West England.

Langage Green Hydrogen has a comprehensive web site, where this is said about the project.

Langage Green Hydrogen is an industry leading project, that will use renewable energy to produce green hydrogen fuel which will decarbonise industry, and in the future, transport and heating. The development will have an initial capacity of 10 MW, which will produce enough hydrogen to heat the equivalent of 14,000 homes. The project is part of the wider Langage Energy Park.

 

Note.

 

Quill 2

Quill 2 is being developed by INOVYN ChlorVinyls in North West England.

There is very little about Quill 2 on the Internet.

Personally, I find that a pity, as I used to work on what is now INOVYN’s Runcorn site.

Tees Green Hydrogen

Tees Green Hydrogen is being developed by EDF Renewables Hydrogen in North East England.

This page on the EDF Renewables web site gives this spotlight for Tees Green Hydrogen.

Tees Green Hydrogen, will be a pioneering project, using the green electricity from nearby Teesside Offshore Wind Farm along with a new solar farm, which EDF Renewables UK intends to construct near Redcar, to power its hydrogen electrolyser. The project will supply local business customers with hydrogen to support decarbonisation efforts and a significant reduction in industrial pollution.

There is also an informative animation.

This is said about the capacity.

In its initial phase, the electrolyser will have a 7.5MW capacity. It is hoped that work could begin on site in 2024, with the facility operational by 2026. Future phases will seek to deliver up to 300MW in Teesside before 2030.

Quel énorme!

Trafford Green Hydrogen

Trafford Green Hydrogen is being developed by Carlton Power in North West England.

This is the introduction on the project web page.

Trafford Green Hydrogen is an industry leading project, that will use renewable energy to produce green hydrogen fuel for industry, transport and heating. The development will have an ultimate capacity of 200MW, which will be sufficient to take around 8,000 petrol cars off the road annually. The initial phase will be 20MW.

Carlton are also developing two other projects;

West Wales Hydrogen Project – Phase 1

West Wales Hydrogen Project – Phase 1 is being developed by H2 Energy and Trafigura in Wales.

The best source of information is this must-watch Youtube video.

The company appears to be able to lease you a hydrogen truck on a pay per mile basis, at the same price as a diesel truck.

Get the finance right for your customers and yourself and everybody will be happy.

Whitelee Green Hydrogen

Whitelee Green Hydrogen is being developed by Scottish Power in Scotland.

The Whitelee wind farm is described like this on this web page.

Whitelee is the UK’s largest onshore windfarm, located on Eaglesham Moor just 20 minutes from central Glasgow. Its 215 turbines generate up to 539 megawatts of electricity, enough to power over 350,000 homes*.

With more than 130 kilometres of trails to explore, on foot, by cycle or by horse, with free parking and free entry to our onsite Visitor Centre, Whitelee is a great destination for a day out with the whole family.

I wrote about this project in Whitelee Green Hydrogen Facility To Power Public Transport.

Conclusion

These projects will create a lot of green hydrogen.

These are my highlights.

  • J G Pears, who have developed an animal by-products business with a distinct green agenda.
  • Kimberly-Clark planning three hydrogen plants in Cumbria, Kent and North Wales to decarbonise their paper products business.
  • The up to 300 MW Tees Green Hydrogen being developed by EDF Renewables.
  • The H2 Energy and Trafigura hydrogen truck business in West Wales.

Don’t forget to watch the video for the last project.

 

 

 

August 19, 2023 Posted by | Energy, Hydrogen | , , , , , , , , , , , , , , , , , , , , , , , , , | 2 Comments

Centrica Bolsters UK’s Energy Security By Doubling Rough Storage Capacity

The title of this post, is the same as that of this news item from Centrica.

These are the first three paragraphs.

Following further engineering work and investment, Centrica has announced increased gas storage capacity at Rough, the UK’s largest gas storage facility.

The facility, which is 18 miles off the coast of East Yorkshire, stopped storing gas in 2017 but was re-opened for gas storage in October 2022. Rough now provides half of the UK’s total gas storage.

At the time of reopening Rough for gas storage it was able to store approximately 30 billion cubic feet (bcf) of gas for UK homes and businesses. Further investment in the facility means Rough will now be able to store up to 54 bcf of gas, boosting the UK’s energy resilience for the coming winter – this would provide the equivalent volume of gas to heat 2.4 million homes over winter.

This work and investment has increased the storage capacity by a massive eighty percent.

The news item finishes with this quote from Centrica Group Chief Executive, Chris O’Shea.

We stand ready to invest £2 billion to repurpose the Rough field into the world’s biggest methane and hydrogen storage facility, bolstering the UK’s energy security, delivering a net zero electricity system by 2035, creating 5,000 skilled jobs and decarbonising the UK’s industrial clusters by 2040. But to do this we need the right regulatory support framework. This world class North Sea asset has the potential to help the UK economy return to a position of being a net exporter of energy once again.

As East Yorkshire also boasts the Aldbrough Gas Storage in the salt formations under Hull, the area will have plenty of gas to keep them warm in the winter.

June 30, 2023 Posted by | Energy, Energy Storage | , , , | 3 Comments

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