The Anonymous Widower

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

Pension Power Backing For New Battery Energy Storage Plant

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

These paragraphs outline the project,

A new battery energy storage plant at the site of a decommissioned power station will be funded by Welsh pensioners.

The plan for the facility at the former Uskmouth B Power Station at the Gwent Wetlands on the edge of Newport, was approved by the city council’s planning committee this January.

The batteries will store excess power during times of “excess supply” and then put that electricity back into the grid when demand is higher.

The Greater Gwent Pension Fund, which manages the retirement savings of more than 65,000 members from Blaenau Gwent, Caerphilly, Monmouthshire Newport and Torfaen councils as well as 52 other active employers in the Gwent region, has revealed it is investing in the project.

According to their Wikipedia entry, the Uskmouth power stations have had rather a chequered history and both appear to be currently non-productive.

  • The original coal-fired Uskmouth A has been demolished and the site is now occupied by an 832 MW gas-fired CCGT power station. Currently, it is in a ‘dormant’ state, after its owner entered administration.
  • The original coal-fired Uskmouth B has been converted and now can generate 363 MW on a mixture of biomass and waste plastic. Uskmouth B is currently being demolished.

This press release from Quinbrook Infrastructure Partners is entitled Quinbrook To Build Large-Scale Battery Storage Project At Uskmouth, South Wales.

This is the sub-heading.

Uskmouth will be one of the largest storage projects in the UK and will directly support the UK’s energy transition.

These first two paragraphs outline the project.

Quinbrook Infrastructure Partners (“Quinbrook”), a specialist investment manager focused on renewables, storage and grid support infrastructure has acquired the exclusive development rights for one of the UK’s largest battery storage projects to date.

The planned 230MW / 460MWh Battery Energy Storage System (“BESS”), will be located at the site of the former Uskmouth coal fired power station in south Wales (“Project Uskmouth”) and will seek to utilise existing power transmission infrastructure and provide a new lease of life to the area. Uskmouth was acquired from Simec Atlantis Energy Limited (“SAE”). Quinbrook has partnered with Energy Optimisation Solutions Limited (“EOS”) in the origination and development of Project Uskmouth, which represents a major anchoring project in the planned re-development and regeneration of the Uskmouth site into a Sustainable Energy Park that will support innovative future industry. Quinbrook considers these types of regeneration projects as key to making meaningful contributions to delivery of the Government’s Levelling Up ambitions.

Note.

  1. The battery can supply 230 MW for two hours.
  2. It looks like the battery will replace the older of the two power stations and work with the relatively-modern 832 MW gas-fired CCGT power station.
  3. Will they act as backup to renewables?

As there are very few renewables in the area, will this work with the wind farms being developed in the Celtic Sea or are Quinbrook anticipating wind farms South of Newport in the Bristol Channel?

I have a few thoughts.

Will Uskmouth Work With Hinckley Point C?

This Google Map shows the relative locations of Uskmouth and Hinckley Point C.

Note.

  1. Uskmouth is just South of Newport, in the North-East corner of the map.
  2. I estimate that Uskmouth and Hinckley Point C are 24.7 miles apart.

A cable across the Bristol Channel would surely increase the energy security of South Wales.

Will There Be Wind Farms In The Bristol Channel?

I feel that this is inevitable.

This document on the Welsh Government web site is entitled Future Potential For Offshore Wind In Wales, was written by The Carbon Trust.

This paragraph is the document’s assessment of wind farms in the Bristol Channel.

Despite high energy demand and good infrastructure, environmental conditions in the Bristol Channel
makes this area challenging for offshore wind development. In addition to lower average wind speeds,
the Bristol Channel has complex seabed, including areas of hard rock, and is exposed to strong tidal
currents from the Severn Estuary. Seabed conditions and tidal currents were the main drivers behind
cancellation of the Atlantic Array project and it is considered unlikely that a developer would look to
revive this site in the near-term, particularly given competition with other more favourable UK sites.

That doesn’t seem very promising.

But this is the document’s assessment of wind farms in the Pembrokeshire Atlantic area.

Exposure to the prevailing south-westerly Atlantic wind and swells means that the waters off
Pembrokeshire have excellent wind speeds, often exceeding 10 m/s, but also a harsher wave
environment than elsewhere in Wales. Significantly, water depths quickly increase to over 50m,
suggesting that floating foundations are likely to be required, particularly if projects are located
further from shore, which is likely given constraints from environmental impact and seascape near to
the Pembrokeshire Coast National Park.

Grid infrastructure is constrained for thermal generation but should not be a barrier to new
renewables. The Greenlink interconnector could also support the addition of new capacity. The region
has good port infrastructure at Milford Haven and Pembroke Dock, which is already actively pursuing
upgrades to future proof the port for potential offshore wind deployment.

That is a lot more promising.

  • Some demonstration wind farms are under development.
  • Hopefully, the steel would be available at Port Talbot.
  • I can see this area, having almost 50 GW of floating wind.

I do feel though, that once the sea off Pembrokeshire is full of wind farms, that developers will turn their attention to the more difficult waters of the Bristol Channel.

Is The Uskmouth BESS A Good Investment?

The Nation.Cymru article discusses this and what they say is well worth reading.

My feelings are that the BESS will be very busy balancing electricity on the South Wales Coast and to and from Ireland using the 500 MW Greenlink Interconnector, which opens this year.

These electrical systems are relatively easy to model and I suspect Quinbrook wouldn’t be investing, if the BESS was not going to generate a substantial income.

January 30, 2024 Posted by | Energy, Finance | , , , , , , , , , , , , , | 2 Comments

InterGen’s Two Huge Batteries

InterGen are developing two huge lithium-ion batteries, which seem to be rather under the radar of the mainstream media.

InterGen are an energy company, of which few people have heard.

On the About InterGen page, this is the sub-heading of a section describing their business.

InterGen is a uniquely independent energy company. We support the journey to a stable, dependable, net zero energy system through delivering the flexible electricity solutions that underpin it.

These four paragraphs introduce the business.

Founded in 1995, we have decades of experience in the GB market.

Our power stations provide secure, flexible energy to consumers, and help the grid to take on more and more renewables.

Our expert trading team in Edinburgh sells electricity and services to help utilities, system operators and the wider energy market deliver secure power to homes and businesses across the country, whilst our pipeline of new developments includes some of the world’s largest battery storage assets, an essential component in the future energy system.

The world is changing, and we’re proud to be playing an active role in the unfolding energy story for generations to come.

Batteries are very much for generations to come.

These four paragraphs on this page says this about their batteries.

Developing a large-scale energy storage capability will help to resolve the challenge of the intermittency of renewable generation. At InterGen, we’re managing the delivery of one of Europe’s largest battery storage portfolios, with over 2GW of grid scale projects, having dedicated grid connections and proceeding through the permitting process.

The share of wind and solar power is increasing in the UK’s energy mix, but these sources only generate power when the wind blows or the sun shines. The use of batteries to store the excess power generated can help provide low carbon power to balance supply and demand with renewable power during periods of low output.

InterGen’s UK battery projects are world-leading in this kind of technology deployment. The facilities will use proven lithium-ion technology which has zero emissions, has superior flexibility, and will complement the increasing amounts of renewable energy generation in the UK.

In Essex, our project at London Gateway Port to create up to 900MWh of energy received planning permission in January 2023, and when complete will be large enough to provide power for up to 450,000 homes. At Spalding, we have consent to develop up to 1.1GWh of storage capability, adjacent to our existing operational CCGT and OCGT plants. Both of these developments are world-class in terms of size. It’s all part of our goal to support the transition to low carbon generation through the provision of flexible capacity.

Gateway Energy Centre

This page describes the Gateway Energy Centre, where this is said.

InterGen is in late stage development of a world leading battery storage project in the London Gateway Logistics Park, next to the DP World London Gateway Port on the north bank of the River Thames in Essex. InterGen built and continues to operate the existing 800 MW Coryton gas-fired combined cycle power station which is located approximately one kilometre from the proposed Gateway Energy Centre site.

The Gateway project will consist of a Battery Energy Storage System (BESS) with a rated electrical output of up to 900MWh (up to 450MW).

InterGen received Town and Country Planning Permission in January 2023, making the Gateway project the largest battery in the UK once operational. The £300m project will provide power for over 450,000 homes once fully complete.

Note.

  1. I assume they mean this battery is a 450 MW/900 MWh battery, that will provide 450 MW for two hours.
  2. It is close to the 732 MW Coryton gas-fired combined cycle power station.

I would assume that one of its tasks will be to make sure the London Gateway complex gets rnough reliable power.

Spalding Energy Park

This page describes the Spalding Energy Park, where this is said.

The Spalding Energy Park, adjacent to InterGen’s existing combined and open cycle gas plants at Spalding, has received Town and Country Planning Permission in June 2023 for one of Europe’s largest battery storage projects. The battery development could deliver up to 1,100MWh of electricity once operational, providing power for up to 500,000 homes.

Spalding Energy Park received planning consent in January 2018 from the Department of Business, Energy and Industrial Strategy. The project is carbon capture ready.

As at Gateway Energy Centre, the battery is located close to a large 860 MW gas-fired power station.

Co-location of a gas-fired power station and a battery must make the grid connection simpler.

Conclusion

A total of 2 GWh of storage is a good start and I’ll suspect we’ll hear more about these two batteries in the next couple of years.

December 17, 2023 Posted by | Energy, Energy Storage | , , , , , , , , | Leave a comment

Centrica Energy, Bord Gáis Energy And Mitsubishi Power Announce Development Of Europe’s First Ammonia Fired Power Generation Facility

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

This is the sub-heading.

Centrica plc and Mitsubishi Power Europe Limited “Mitsubishi Power Europe” have signed a Memorandum of Understanding (MOU) to explore the development, construction, and operation of Europe’s first-ever ammonia-fired power generation facility at Bord Gáis Energy’s Whitegate Combined Cycle Gas Turbine (CCGT) power station in Cork, Ireland.

These four paragraphs outline the project.

The project is being led by Centrica through its Bord Gáis Energy and Centrica Energy businesses and Mitsubishi Power Europe and would become Europe’s inaugural ammonia-fired power generation facility and one of only two such facilities in the world.

The utilisation of low carbon ammonia as a clean and sustainable fuel source for power generation has the potential to provide security of supply while reducing greenhouse gas emissions. Low carbon ammonia has a higher volumetric density than hydrogen, enabling the utilisation of low carbon hydrogen in a form which is easy to transport and store, resulting in a fuel that can be combusted with no carbon emissions at point of use. Its use as a fuel is a promising long-term energy solution for the transition to a low-carbon energy value chain.

Bord Gáis Energy’s facility at Whitegate CCGT power station would serve as a global demonstration site for ammonia-fired power generation technology, providing insight into the feasibility and scalability of low carbon ammonia as a green fuel and shaping the future of power generation worldwide, with low carbon ammonia being sourced through Centrica Energy’s global trading network.

Following the signing of the MOU, the project team is being established to commence project feasibility assessments. Upon the successful outcome of this assessment, extensive local stakeholder engagement will commence.

Note.

  1. No mention of the size of the new power station is given in the press release.
  2. Whitegate power station is a 445 MW combined cycle gas turbine (CCGT), that was built in 2010.
  3. It can meet ten percent of Ireland’s electricity demand.

I have a few thoughts.

Will The Existing Power Station Be Converted To Ammonia Or Will A New Ammonia-Fired Power Station Be Built Alongside?

Consider.

  • If the second station doesn’t work, there’s no reduction in power.
  • If a replacement station doesn’t work, ten percent of Ireland will be in the dark.
  • Ireland will be needing more power in the next few years.
  • A second power station can be appropriately-sized.
  • Japanese don’t like to lose face!

Prudence probably says that building a second station alongside is the least risky route.

Wind Power In Ireland

This Wikipedia entry is entitled Wind Power In Ireland.

This is the first paragraph.

As of 2021 the island of Ireland has 5,585 megawatt and the Republic of Ireland has 4,309 MW of installed wind power nameplate capacity, the third highest per capita in the world. In 2020 wind turbines generated 36.3% of Ireland’s electrical demand, one of the highest wind power penetrations in the world.

There is also one 500 MW interconnector between the islands of Great Britain and Ireland, with another similar-sized one under construction.

As the wind doesn’t blow all the time, the island of Ireland will need some low-carbon backup.

Why Ammonia?

This paragraph from the press release gives several reasons.

The utilisation of low carbon ammonia as a clean and sustainable fuel source for power generation has the potential to provide security of supply while reducing greenhouse gas emissions. Low carbon ammonia has a higher volumetric density than hydrogen, enabling the utilisation of low carbon hydrogen in a form which is easy to transport and store, resulting in a fuel that can be combusted with no carbon emissions at point of use. Its use as a fuel is a promising long-term energy solution for the transition to a low-carbon energy value chain.

There may also be secondary issues here.

If you read the Applications section in the Wikipedia entry for ammonia, you will realise, what a useful chemical ammonia is.

As Ireland has a lot of agriculture, a fertiliser plant could be located close to the power station.

If the ammonia was green ammonia, then this will help to decarbonise the island of Ireland.

Where Will The Green Ammonia Come From?

These posts deal with the production and distribution of green ammonia.

Note.

  1. A continent with a lot of renewable energy like Africa or Australia can create lots of green ammonia.
  2. As the press release says, ammonia is easier to transport and store compared to hydrogen.
  3. The press release says that low carbon ammonia will be sourced through Centrica Energy’s global trading network.
  4. Fortescue Future Industries is mentioned in several posts, as producers of green hydrogen and green ammonia.
  5. Centrica is big enough to stand up to Andrew “Twiggy” Forrest and Fortescue Future Industries.

As in a few years, we will have many GWs of renewable energy, could we be making green ammonia for the Irish?

This news story on the UK Research and Innovation web site is entitled Designs For Green Ammonia Plant Become Reality.

This is the sub-heading.

Science and Technology Facilities Council (STFC) researchers are building a small-scale plant to generate ammonia using only renewable energy sources.

These two paragraphs outline the story.

Ammonia is a promising carbon-free fuel source of the future and so if successful, the plant has the potential to considerably advance the UK’s net zero ambitions.

It marks the second phase of the Ammonia Synthesis Plant from Intermittent Renewable Energy (ASPIRE) initiative which will be led by STFC in conjunction with the University of Bath, Johnson Matthey, and Frazer-Nash Consultancy.

The UK Research and Innovation news story has this description of the ASPIRE technology.

Current commercial ammonia synthesis is optimised for near steady production requiring constant power.

The first phase of ASPIRE however saw the design of a patented modular reactor and thermal management system that should enable operation from an intermittent renewable power supply.

The new plant will have three core elements:

  • a pressure swing adsorption system which extracts nitrogen from air
  • a modular electrolyser which splits hydrogen from water
  • a synthesis loop that uses the modular reactor and a thermal management system to combine hydrogen and nitrogen to make ammonia

This will enable the entire production process to operate autonomously, powered by a small wind turbine and series of solar canopies with an ammonia generation rate proportional to the available renewable power.

There is even this quote from a Dr. Alan Partridge.

Thanks to the incredible work on this initiative by the team at Rutherford Appleton Laboratory as well as the University of Bath and private sector partners, we are closer than ever to producing industry-scale green ammonia for the UK and the world.

Perhaps, this technology will allow the island of Ireland to make all the green ammonia it needs.

Will Centrica Be Going Into The Green Ammonia Business?

The Centrica press release says they will be dealing in green ammonia for the benefit of Ireland. So Yes!

Conclusion

The news story on the UK Research and Innovation web site is a must-read.

As we have so much renewable energy in the UK, some company will build an ASPIRE-based green ammonia plant in the UK.

 

 

 

November 29, 2023 Posted by | Energy | , , , , , , , , , , , , , , , , | Leave a comment

SSE Goes Global To Reap The Wind

The title of this article on This Is Money is Renewable Energy Giant SSE Launches Plan To Become Britain’s First Global Windfarm Business As it Invests Up To £15bn Over Next Decade.

The title is a good summary of their plans to build wind farms in Continental Europe, Denmark, Japan and the US, in addition to the UK and Ireland.

I can also see the company developing more integrated energy clusters using the following technologies.

  • Wind farms that generate hydrogen rather than electricity using integrated electrolysers and wind turbines, developed by companies like ITM Power and Ørsted.
  • Reusing of worked out gasfields and redundant gas pipelines.
  • Zero-carbon CCGT power stations running on Hydrogen.
  • Lots of Energy storage.

I talked about this type of integration in Batteries Could Save £195m Annually By Providing Reserve Finds National Grid ESO Trial.

In the related post, I talked about the Keadby cluster of gas-fired power stations, which are in large part owned by SSE.

Conclusion

I think that SSE could be going the way of Equinor and Ørsted and becoming a global energy company.

It is also interesting the BP and Shell are investing in renewable energy to match the two Scandinavian companies.

Big Oil seems to be transforming itself into Big Wind.

All these companies seem to lack grid-scale energy storage, although hydrogen can be generated and stored in worked-out gas fields.

So I would expect that some of the up-and-coming energy storage companies like Gravitricity, Highview Power and RheEnergise could soon have connections with some of these Big Wind companies.

 

 

February 14, 2021 Posted by | Energy, Energy Storage, Hydrogen | , , , , , , , , , , | Leave a comment

Batteries Could Save £195m Annually By Providing Reserve Finds National Grid ESO Trial

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

The title gives the findings of the Arenko-led trial.

What Is The National Grid Reserve Service?

It’s all about providing capacity for the National Grid Reserve Service, which is described in this Wikipedia entry. This is the introductory paragraph.

To balance the supply and demand of electricity on short timescales, the UK National Grid has contracts in place with generators and large energy users to provide temporary extra power, or reduction in demand. These reserve services are needed if a power station fails for example, or if forecast demand differs from actual demand. National Grid has several classes of reserve services, which in descending order of response time are: Balancing Mechanism (BM) Start-Up, Short-Term Operating Reserve, Demand Management and Fast Reserve.

The Wikipedia entry is very comprehensive.

A Collateral Benefit

This is a paragraph from the article.

Additionally, unlike CCGT plants, batteries do not need to be producing power in order to provide Reserve as they can charge when there is abundant renewable energy on the grid, and then wait to react when needed. As CCGT’s need to be producing power to provide this service, it can led to renewables switched off in favour of the more carbon intensive fossil fuel generation, to ensure Reserve is available if needed.

The article concludes that Reserve from Storage could help National Grid ESO’s reach their target of net-zero operation by 2025.

Could We Replace CCGT Plants With Batteries?

CCGT or combined cycle gas-turbine power plants are efficient ways to turn natural gas into electricity.

  • Typical sizes are around 800 MW.
  • They are reasonably quick and easy to build.
  • As their fuel comes by a pipeline, they don’t need to be connected to the rail network, unlike biomass and coal power plants.

Because they burn methane, they still emit a certain amount of carbon dioxide, although levels much less than an equivalent coal-fired power station.

In Energy In North-East Lincolnshire, I described the three Keadby power stations.

  • Keadby – In operation – 734 MW
  • Keadby 2 – Under construction – 840 MW
  • Keadby 3 – In planning – 910 MW

In total, these three power stations will have a capacity of 2484 MW.

By comparison, Hinckley Point C will have a capacity of 3200 MW.

Add Keadby 4 and the four CCGTs would provide more electricity, than Hinckley Point C.

I think it would be very difficult to replace a cluster of CCGT gas-fired power stations or a big nuclear power plant with the sort of batteries being deployed today. 2.5 to 3 GW is just so much electricity!

I do believe though, that instead of building a 3200 MW nuclear power plant, you could build a cluster of four 800 MW CCGTs.

But What About The Carbon Dioxide?

Using the Keadby cluster of CCGTs as an example.

  • Keadby 2 and Keadby 3 are being built to be upgraded with carbon-capture technology.
  • The HumberZero gas network will take the carbon dioxide away for  storage in worked-out gas fields in the North Sea.
  • Some carbon dioxide will be fed to salad vegetables and soft fruits in greenhouses, to promote growth.
  • Keadby 2 and Keadby 3 are being built to be able to run on hydrogen.
  • The HumberZero network will also be able to deliver hydrogen to fuel the power stations.

I’m certain we’ll see some of the next generation of wind turbines delivering their energy from hundreds of miles offshore, in the form of hydrogen by means of a pipe.

The technology is being developed by ITM Power and Ørsted, with the backing of the UK government.

  • Redundant gas pipelines can be used, to bring the hydrogen to the shore
  • The engineering of piping hydrogen to the shore is well-understood.
  • Redundant gas pipelines can be used if they already exist.
  • Gas networks can be designed, so that depleted gas fields can be used to store the gas offshore, in times when it is not needed.

But above all gas pipelines cost less than DC  electricity links, normally used to connect turbines to the shore.

I can see very complicated, but extremely efficient networks of wind turbines, redundant gas fields and efficient CCGT power stations connected together by gas pipelines, which distribute natural gas, hydrogen and carbon dioxide as appropriate.

Could Offshore Hydrogen Storage And CCGTs Provide The Reserve Power

Consider.

  • Using a CCGT power station  to provide Reserve Power is well understood.
  • Suppose there is a large worked out gasfield, near to the power station, which has been repurposed to be used for hydrogen storage.
  • The hydrogen storage is filled using hydrogen created by offshore wind turbines, that have built in electrolysers, like those being developed by ITM Power and Ørsted.
  • One of more CCGTs could run as needed using hydrogen from the storage as fuel.
  • A CCGT power station running on hydrogen is a zero-carbon power station.

Effectively, there would be a giant battery, that stored offshore wind energy as hydrogen.

I can see why the UK government is helping to fund this development by ITM Power and Ørsted.

Could We See Cradle-To-Grave Design Of Gas Fields?

I suspect that when a gas field is found and the infrastructured is designed it is all about what is best in the short term.

Suppose a gas field is found reasonably close to the shore or in an area like the Humber, Mersey or Tees Estuaries, where a lot of carbon dioxide is produced by industries like steel, glass and chemicals!

Should these assessments be done before any decisions are made about how to bring the gas ashore?

  • After being worked out could the gas field be used to store carbon dioxide?
  • After being worked out could the gas field be used to store natural gas or hydrogen?
  • Is the area round the gas field suitable for building a wind farm?

Only then could a long-term plan be devised for the gas-field and the infrastructure can be designed accordingly.

I suspect that the right design could save a lot of money, as infrastructure was converted for the next phase of its life.

Conclusion

It does appear that a lot of money can be saved.

But my rambling through the calculations shows the following.

Wind Turbines Generating Hydrogen Give Advantages

These are some of the advantages.

  • Hydrogen can be transported at less cost.
  • Hydrogen is easily stored if you have have a handy worked-out gas field.
  • The technology is well-known.

Hydrogen can then be converted back to electricity in a CCGT power station

The CCGT Power Station Operates In A Net-Zero Carbon Manner

There are two ways, the CCGT station can be run.

  • On natural gas, with the carbon-dioxide captured for use or storage.
  • On hydrogen.

No carbon-dioxide is released to the atmosphere in either mode.

The Hydrogen Storage And The CCGT Power Station Or Stations Is Just A Giant Battery

This may be true, but it’s all proven technology, that can be used as the Power Reserve.

Power Networks Will Get More Complicated

This will be inevitable, but giant batteries from various technologies will make it more reliable.

 

 

 

February 12, 2021 Posted by | Energy, Energy Storage, Hydrogen | , , , , , , , , , , , | 1 Comment