The Anonymous Widower

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

Malaysian Fabrication Company Enters Offshore Wind Market With IJmuiden Ver Alpha Contract

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

This is the sub-heading.

Malaysia Marine and Heavy Engineering Holdings Berhad (MHB), through its wholly-owned subsidiary Malaysia Marine and Heavy Engineering (MMHE), has secured a subcontract for its first offshore substation high-voltage direct current (HVDC) platform required for TenneT’s 2 GW offshore wind project in the Netherlands

These two paragraphs outline the project.

The Malaysian contractor confirmed the award from Petrofac on 29 November and said the OSS HVDC platform consists of a topside and jacket for the IJmuiden Ver Alpha project.

The subcontract scope consists of construction engineering, fabrication, mechanical completion, load out and sea fastening, and architectual works on engineering, procurement, and construction (EPC) basis.

A third paragraph, indicates, that this contract could be the first of a few.

In addition, the parties will also collaborate towards the possibility of fabrication works for two additional offshore substation units of similar size.

This story illustrates how wind farm developers are looking for more places to build their infrastructure.

In An Elegant Solution, I talked about an idea called a D-Floater. Five are shown being transported in this picture.

The idea is from a Swedish company; Bassoe Technology.

This would enable transport costs from faraway places to be reduced.

Nearer to Europe, the Black Sea ports of the Ukraine could be an ideal place to build infrastructure, as the country used to  have the required skills, ports and steel-making capabilities.

But first Putin must be put back in his box!

 

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

UK Offshore Wind And CCS Colocation Projects Kick Off

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

This is the sub-heading.

The Offshore Wind and Carbon Capture and Storage (CCS) Colocation Forum (the Forum), set up to provide strategic coordination of colocation research and activity on the nation’s seabed, has commissioned two research projects.

These first two paragraphs, which set objectives and possible methods for the two projects.

The projects are designed to inform the best approach to test and demonstrate the colocation of offshore wind and CCS activities in the future.

The research projects – Project Colocate and Project Anemone – build on the Forum’s Spatial Characterisation Report, which identified areas of potential overlap for offshore wind and CCS on the seabed, and NSTA’s Seismic Imaging Report, which explored various options for monitoring carbon storage and offshore wind sites to help resolve possible colocation issues.

These are the two projects.

Project Colocate, which is described in the article like this.

Delivered by the University of Aberdeen with funding from the Crown Estate and Crown Estate Scotland, Project Colocate will investigate the viability of areas on the seabed for colocation of CCS and offshore wind, with bespoke monitoring plans for each area.

Researchers from the University of Aberdeen will focus their investigations on the East Irish Sea and Central North Sea, both of which have been identified as having significant potential for future colocation of CCS and offshore wind, according to the Crown Estate.

Project Anenome, which is described in the article like this.

The complementary Project Anemone will explore mutually beneficial opportunities arising from the colocation of these developing industries.

The project aims to identify and map the routes to realising these opportunities to create practical guidance for how offshore wind and CCS technologies can operate alongside each other – from construction to decommissioning.

It does appear to be a lot of sensible thinking and words, although neither project appears to yet have a website.

This paragraph is a nice tailpiece to the article.

To achieve the UK’s net zero targets, the UK Government is targeting the delivery of 50 GW of offshore wind energy and the capture of 20-30 million tonnes of CO2 per year by 2030.

I’ve mentioned 50 GW of offshore wind before, but 20-30 million tonnes is a lot of CO2.

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

Centrica’s Rough Storage Facility Pumps Gas Into Grid To Meet Increased Demand

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

This is the sub-heading.

The UK’s largest gas storage facility, Rough, has released stored gas into the grid to help the UK both manage higher heating demand during the current cold weather and keep prices down. This is the first time Rough has released gas this winter.

These three paragraphs describe how Centrica are using Rough and how they will use it in the future.

This year, Centrica has filled Rough with the equivalent of 18 LNG tankers. Rough provides enough energy to heat over 3 million homes, every day, all winter, keeping families warm and bills down.

Rough is the UK’s largest gas storage facility. It stopped storing gas in 2017 but was re-opened for gas storage in October 2022, and its capacity was doubled in the summer of 2023. The facility, which is 18 miles off the coast of East Yorkshire, now provides half of the UK’s total gas storage.

Centrica’s long-term ambition is to turn the Rough gas field into the largest long duration low carbon energy storage facility in the world, capable of storing both natural gas and hydrogen.

It does seem that Centrica have handled the Rough facility well.

But I do feel that Centrica are playing a bigger game.

I certainly like what they’re doing.

November 28, 2023 Posted by | Energy, Energy Storage, Hydrogen | , , | Leave a comment

German Company To Build XXL Monopile Factory in Denmark

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

This is the sub-heading.

German-based Baltic Structures Company (BSC) has revealed that it will build an XXL monopile production factory in Esbjerg, Denmark

These are the first three paragraphs that outline the project.

BSC will build “Europe’s biggest” foundation fabrication site in the Esbjerg Port where it will be able to offer various foundations structures with a more than 100,000-square-metre production area under the roof and an output of up to 200 XXL monopiles per year.

The German company said that the focus of the plant is on structures with dimensions of up to 15 metres in diameter, up to 130 metres in length, and single unit weights of up to 4,000 tonnes.

In addition to monopiles, transition pieces, pin piles, and components for jackets, floating foundations will also be offered, said BSC.

These last three paragraphs sum up, where we are at the moment with European wind turbine foundation manufacture.

In September 2022, Esbjerg Port (Denmark), Oostende Port (Belgium), Groningen Seaports/Eemshaven (the Netherlands), Niedersachsen Port/Cuxhaven (Germany), Nantes-Saint Nazaire Port (France), and Humber (the UK) signed a partnership agreement with an aim to minimise capacity issues.

At the beginning of this year, the six largest European wind ports also signed a mutual declaration to collaborate on an operational and practical level to help bring the new offshore wind capacities across Europe as smoothly as possible.

In January, the Port of Esbjerg, together with US-based Moffatt & Nichol, deployed digital twin technology which could triple the port’s offshore wind capacity.

I also wrote UK And South Korea Help Secure Millions For World’s Largest Monopile Factory, this morning about a new monopole factory on Teesside.

  • The Teesside factory is described as the world’s largest.
  • On the other hand the Esbjerg Port facility is described as Europe’s biggest foundation fabrication site.

I suspect the Germans and the Koreans are using different engineering dictionaries.

European Offshore Wind Power Targets

Out of curiosity, I looked up the offshore wind capacity, the UK and neighbouring countries are planning before 2030.

  • UK – 50 GW
  • Germany – 30 GW
  • Norway – 30 GW
  • The Netherlands – 21 GW
  • France – 18 GW
  • Denmark – 13 GW
  • Italy – 10 GW
  • Portugal – 10 GW
  • Belgium – 5.4-5.8 GW
  • Republic of Ireland – 5 GW
  • Spain – 3 GW

Note.

  1. Norway’s figure relates to 2040.
  2. Northern Ireland have a target of 1 GW, which I assume is included in the UK total.
  3. The total is between 195.4 and 195.8 GW.

Given that we could be producing over a quarter of Western Europe’s offshore wind power, the Gods of the Winds must have been British.

 

November 27, 2023 Posted by | Energy | , , , , , | Leave a comment

New Plan To Lay Out Path For UK Offshore Wind Growth Expected In Early 2024

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

This is the sub-heading.

RenewableUK, the Offshore Wind Industry Council (OWIC), the Crown Estate, and Crown Estate Scotland are developing a new Industrial Growth Plan (IGP) to boost the long-term growth of the UK offshore wind sector.

These two paragraphs outline the plan.

The industry players have appointed KPMG to support the development of the IGP which is expected to be published early next year.

The IGP will build on the recent Supply Chain Capability Analysis which outlined a GBP 92 billion opportunity for the country if it can develop its capacity and expertise in a number of key areas, according to RenewableUK.

When plans like this are announced, I wish I was still involved in writing project management software.

November 27, 2023 Posted by | Energy | , , , , | Leave a comment

UK And South Korea Help Secure Millions For World’s Largest Monopile Factory

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

This is the sub-heading.

UK Export Finance (UKEF) and South Korea’s export credit agency Korea Trade Insurance Corporation (K-Sure) have helped SeAH Wind to secure GBP 367 million in Standard Chartered Bank and HSBC UK financing to build the world’s largest wind monopile manufacturing facility.

These three paragraphs outline the story.

UKEF and K-Sure have secured support worth GBP 367 million for South Korean manufacturer SeAH Steel Holding’s construction of a wind tech factory near Redcar, in the Tees Valley.

Issuing its first-ever “Invest-to-Export” loan guarantee to secure overseas investment in British industry, UKEF together with K-Sure has ensured that SeAH Wind UK can fund the construction project – worth almost GBP 500 million – with GBP 367 million in financing from Standard Chartered Bank and HSBC UK.

SeAH Wind UK, a subsidiary of South Korean steel company SeAH Steel Holding, announced its decision to invest and broke ground at Teesworks Freeport last summer.

The article also says.

  • This is SeAH Wind’s first such investment outside Korea.
  • The factory will make between 100 and 150 monopiles a year.
  • The factory will create 750 jobs when it opens in 2026.
  • The factory is conveniently placed for transport to the North Sea.

Everybody seemed to have worked hard during the state visit of the Korean President and his wife.

November 27, 2023 Posted by | Energy, Finance & Investment | , , , , , , , | 3 Comments

South Korea, UK Strengthen Offshore Wind Ties

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

This is the sub-heading.

The Republic of Korea (ROK) and the UK have signed a memorandum of understanding (MoU) concerning cooperation on offshore wind energy

These three paragraphs outline the MoU.

The UK and ROK already have a proven relationship in offshore wind, with large-scale investments in the UK’s supply chain and in the development of ROK’s offshore wind sector.

This MoU emphasises the will to build on this existing cooperation to accelerate deployment, address barriers to trade, and encourage mutual economic development through regular government-to-government dialogue and business-to-business cooperation, according to the partners.

The participants will support the UK and ROK’s offshore wind deployment by sharing experience and expertise from their respective sectors.

These are my thoughts.

The British And The Koreans Have A Long Record Of Industrial Co-operation

My own experience of this, goes back to the last century, where one of the biggest export markets for Artemis; the project management system, that I wrote was South Korea.

We had started with Hyundai in Saudi Arabia, where the Korean company was providing labour for large projects.

I can remember modifying Artemis, so that it handled the Korean won, which in those days,  came with lots of noughts.

The Korean, who managed their Saudi projects returned home and luckily for us, wanted a system in Korea.

Paul, who was our salesman for Korea, used to tell a story about selling in Korea.

Our Korean friend from Hyundai had setup a demonstration of Artemis with all the major corporations or chaebols in Korea.

Paul finished the demonstration and then asked if there were any questions.

There was only one question and it was translated as “Can we see the contract?”

So Paul handed out perhaps a dozen contracts.

Immediately, after a quick read, the attendees at the meeting, started to sign the contracts and give them back.

Paul asked our friendly Korean, what was going on and got the reply. “If it’s good enough for Hyundai, it’s good enough for my company!”

The King Played His Part

King Charles, London and the UK government certainly laid on a first class state visit and by his references in his speech the King certainly said the right things.

I always wonder, how much the Royal Family is worth to business deals, but I suspect in some countries it helps a lot.

With Artemis, we won two Queen’s Awards for Industry. Every year the monarch puts on a reception to which each company or organisation can send three representatives. I recounted my visit in The Day I Met the Queen.

For the second award, I suggested that we send Pat, who was the highest American, in the company.

Later in his career with the company, when he was running our US operations, Pat. found talking about the time, he met the Queen and Prince Philip, very good for doing business.

I wonder how many business and cooperation deals between the UK and Korea, will be revealed in the coming months.

This Deal Is Not Just About The UK And Korea

This paragraph widens out the deal.

In addition, participants accept to promote business activities and facilitate opportunities for UK and ROK companies to collaborate in ROK and the UK, as well as joint offshore wind projects in third countries, according to the press release from the UK Government.

An approach to some countries without the usual bullies of this world may offer advantages.

Has One Secondary Deal Already Been Signed?

This paragraph talks about a recent deal between BP, Dutch company; Corio and the South Koreans.

The news follows the recent announcement from South Korea’s Ministry of Trade, Industry and Energy that two UK companies, Corio Generation and BP, submitted investment plans for offshore wind projects in South Korea totalling about EUR 1.06 billion.

This deal was apparently signed during the state visit.

There’s A Lot Of Wind Power To Be Harvested

These last two paragraphs summarise the wind potentials of the UK and Korea.

The UK has the world’s second-largest installed offshore wind capacity, with a government target to more than triple this capacity by 2030 to 50 GW, including 5 GW of floating offshore wind.

Back in 2018, the South Korean Government set a 2030 offshore wind target of 12 GW in its Renewable Energy 3020 Implementation Plan, which was reaffirmed by the now-former South Korea’s president Moon Jae-in in 2020. Since 2022, it has been reported that the country has a target of reaching 14.3 GW of offshore wind power by 2030.

Note that the UK’s population is almost exactly 30 % bigger than Korea’s.

So why will the UK by 2030, be generating three-and-half times the offshore wind power, than Korea?

Twenty days ago, I wrote UK And Germany Boost Offshore Renewables Ties, where I believe the sub-plot is about long-term power and energy security for the UK and Germany.

Long term, the numbers tell me, that UK and Irish seas will be Europe’s major powerhouse.

Australia’s Offshore Wind Market Could Significantly Benefit from Collaboration with UK Suppliers, Study Says

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

This is the sub-heading.

A new study has been launched that highlights significant opportunities for the UK to share its wind farm expertise with Australia’s emerging offshore wind market

These three paragraphs outline the study.

The Australian Offshore Wind Market Study, conducted by Arup, evaluates potential Australian offshore wind markets and analyses the strengths, weaknesses, and opportunities for UK support.

Key findings indicate that the Australian offshore wind market could “substantially” benefit from collaboration with the UK suppliers, given the UK’s 23 years of experience and its status as the second largest offshore wind market globally, boasting 13.9 GW of installed capacity as of 2023, according to the UK Government.

Currently, Australia has over 40 offshore wind projects proposed for development.

I believe that the Australians could be a partner in the deal between the UK and Korea, as all three countries have similar objectives.

Conclusion

The Korean and German deals. and a possible Australian deal should be considered together.

Each country have their strengths and together with a few friends, they can help change the world’s power generation for the better.

  • Just as the UK can be Europe’s powerhouse, Australia can do a similar job for South-East Asia.
  • Any country with lots of energy can supply the green steel needed for wind turbine floats and foundations.

I would have felt the Dutch would have been next to join, as their electricity network is solidly connected to the UK and Germany. But after this week’s Dutch election, who knows what the Dutch will do?

November 24, 2023 Posted by | Business, Energy | , , , , , , , , , , , , , | 2 Comments

Bristol-Based Manufacturer And Centrica Agree Solar Power Purchase Agreement

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

These three paragraphs outline the story.

A Bristol-based architectural aluminium manufacturer has agreed a power purchase agreement and long term lease of 7,000 solar panels on the roof of its UK headquarters.

Smart Architectural Aluminium (Smart) agreed the deal with Centrica Business Solutions, which will see the 2.94MW installation provide Smart with green energy for the next 25 years whilst servicing 20% of the sites current energy needs.

Centrica Business Solutions has started construction on the 7,000 solar panel array, across the roofs of three buildings at the manufacturing site in Yatton, near Bristol. The 2.94MW installation is the result of a long -term lease agreement between Smart and Centrica Business Solutions, which will see Centrica lease the roof space, finance the project and agree a power purchase agreement with Smart.

Some cynics will look at this deal and think that someone is getting ripped off.

  • But the project starts with a non-productive asset; three roofs, which Centrica cover with solar panels.
  • Most of the electricity generated will go to Smart and be paid for, as they would do, if they get it from the grid.
  • Smart gets paid for the lease of the roofs.
  • Centrica gets paid for any electricity that is fed into the grid.
  • The leasing company gets paid by Centrica.

Centrica would appear to be the company taking the risk and if they do their sums correctly, they should make a profit.

November 22, 2023 Posted by | Energy, Finance & Investment | , , , | Leave a comment

Norfolk Boreas Windfarm Work Could Resume After Energy Price Rise

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

This is the sub-heading.

There are growing hopes that work on a £10bn windfarm off the Norfolk coast will resume after the government agreed to pay more for energy production.

The first three paragraphs, indicate how positions have changed,

Earlier this year, Swedish company Vattenfall paused work on Norfolk Boreas located 50 miles off the coast of Cromer.

But ministers have agreed to a 66% increase in the amount they will pay for offshore electricity generation.

Vattenfall described the move as “a very positive signal”.

It certainly looks like the Government is looking more favourably at wind power developers.

November 19, 2023 Posted by | Energy | , , , | 6 Comments

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