The Anonymous Widower

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

Airport Of The Future

I am fairly sure, that in ten years, there will be a lot of zero-carbon aircraft flying short haul routes. I have been particularly impressed by some of the ideas from Airbus, although Boeing seem to be very quiet on the subject. Perhaps it’s the difference between visionaries and engineers, and accountants.

But you rarely read anything about how airports are preparing for even a low-carbon future.

  • Some long-stay car-parks could be made electric vehicles only, so they would become massive grid batteries, whilst owners are travelling.
  • Airside vehicles can all be made zero-carbon.
  • Sustainable aviation fuel (SAF) shouldn’t be a problem, as it would be handled like jet fuel.
  • Do airports have a large enough grid connection for all the electrification of vehicles and some planes?
  • Do airports have a plan for hydrogen?

The last two points, probably mean we should have built Maplin.

  • It could have a cable and a hydrogen pipeline from wind farms and co-located hydrogen electrolysers in the Thames Estuary.
  • The Elizabeth Line or a new line could easily be extended or built to the airport, to give a 125 mph connection.

But that enemy of the planet; Harold Wilson cancelled it.

December 17, 2023 Posted by | Energy, Hydrogen, Transport/Travel | , , , , , , , , , , , , , | Leave a comment

Statkraft To Acquire Major Loch Ness Pumped Storage Hydro Project From Intelligent Land Investments Group

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

This is the sub-heading.

The acquisition demonstrates Statkraft’s latest commitment to helping Scotland meet its renewable energy targets and strengthening UK energy security

These two paragraphed outline Red John and the deal.

Statkraft, Europe’s largest renewable power generator, has agreed to acquire the Red John Pumped Storage Hydro Scheme, from Intelligent Land Investments Group (ILI).

The 450MW scheme, first conceived in 2015, was granted consent by Scottish Government ministers in June 2021. The acquisition demonstrates Statkraft’s latest commitment to helping Scotland meet its renewable energy targets and strengthening UK energy security. 

Note.

I wrote about Red John in Red John Pumped Storage Hydro Project.

I have also found a web site for the project, where this is said.

  • The scheme has an output of 450 MW.
  • The storage capacity is 2,800 MWh or 2.8 GWh.
  • The scheme has planning consent.
  • The project is budgeted to cost £550 million.
  • The construction program indicates that the scheme will be completed by the end of 2025.

It looks to me, that the ILI Group have done all the hard work in getting the project shovel-ready and are passing the project to a bigger developer.

 

December 16, 2023 Posted by | Energy, Energy Storage | , , , | 2 Comments

GE’s Recently Unveiled 18 MW Wind Turbine To Spin Offshore Japan

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

This is the sub-heading.

The three consortia that Japan’s Ministry of Economy, Trade, and Industry (METI) selected in the country’s second round of offshore wind auctions will use some of the biggest and most powerful wind turbines on/coming to the market – Vestas V236-15 MW and GE’s 18 MW Haliade-X.

Wind farms under construction or in pre-construction in the UK, as I write this post, include.

Note.

  1. I can’t find the turbine size for Hornsea Three.
  2. This article on The Telgraph is entitled Ørsted Asks For More Government Cash Amid Doubts Over Flagship Wind Farm Project, says that Ørsted and Claire Coutinho are talking.
  3. The total power is 10644 MW.
  4. There are a total of 817 turbines.
  5. This is an average turbine size of almost exactly 13 MW.

There would appear to be scope to increase the size of these wind farms by using the new larger turbines.

Just uprating the turbines to 15 MW  would increase capacity by 15 %.

The frequency of stories like these are increasing.

Crown Estate Mulls Adding 4 GW Of Capacity From Existing Offshore Wind Projects

Vattenfall Boosts Capacity For Norfolk Offshore Wind Zone

Three Steps To Unlocking The Potential Of High-Power Wind Turbines

Ossian Floating Wind Farm Could Have Capacity Of 3.6 GW

Developers are seriously thinking of building or upgrading wind farms with larger turbines and other capacity-increasing technology.

 

December 14, 2023 Posted by | Energy | , | Leave a comment

Floating Solar Not Yet Up to Par To Be Brought Into Offshore Wind Tenders, Says BP’s Benelux Head Of Offshore Wind

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

This is the sub-heading.

System integration is what is needed for the next leap in offshore wind, however, not all technologies that can integrate with offshore wind farms have the same starting point. Floating solar still has some way to go in becoming more resilient to harsh offshore conditions. On the other hand, hydrogen is a more ready option with plenty of support from the industry, but it needs to be included and clearly defined in offshore wind tenders.

These two paragraphs describe the views of Frank Oomen, Head of Offshore Wind Benelux at BP.

This is according to Frank Oomen, Head of Offshore Wind Benelux at BP, who discussed financial and qualitative criteria in offshore wind auctions during the Offshore Energy Exhibition & Conference 2023 (OEEC 2023).

Speaking about recently joining BP from the renewables industry, Oomen pointed out that, with offshore wind becoming larger scale, it needs to move in the direction of system integration and become an integrated energy business itself.

I had a lot of my engineering education, in ICI’s world of integrated chemical plants and I believe that Frank Oomen’s views are heading in the right direction.

If we take Frank Oomen’s views to their logical conclusion, we will see the following.

  • Clusters of wind farms far from land in productive wind power areas.
  • A nearby electrolyser will be producing hydrogen.
  • The hydrogen will be taken to the shore by pipeline or tanker.
  • BP with their oil and gas heritage, have been doing this for decades.

BP might even have some redundant gas infrastructure they can repurpose.

December 14, 2023 Posted by | Energy, Hydrogen | , , , , , , | Leave a comment

SSE Comments On COP28

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

SSE Chief Executive, Alistair Phillips-Davies, said:

“We knew going into COP28 that the world wasn’t moving fast enough to decarbonise.  The commitment to triple renewables by 2030 is welcome, as is the inclusion, for the first time, of explicit language on the need to transition away from fossil fuels.  

“Codifying and securing international endorsement for ambitions like these is very welcome; however, the challenge now is to deliver the tangible actions needed to make them a reality.   

“In the power sector, this means speeding up policy and decision-making so that it is easier to invest and build the infrastructure we need to actually deliver net zero, from offshore wind farms to electricity grids and flexible power plants.   

“At COP28 there was no shortage of businesses willing to invest but there was a common frustration at the pace of progress on the ground, and this is something we need to address for all our sakes.”

I would agree with what he said.

  • Especially about speeding up policy and decision-making and delivering more electricity grids.
  • The last paragraph probably applies to a lot of countries.

Surprisingly, energy storage is not mentioned.

Could that be because SSE are going down the route, where hydrogen is created and that is either used in gas-guzzling industries to reduce their carbon-emissions or stored until needed?

December 13, 2023 Posted by | Energy, Hydrogen | , | Leave a comment

SSE Thermal Acquires 50% Stake In H2NorthEast Hydrogen Project

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

These are the first three introductory paragraphs.

SSE Thermal has become joint owner of a blue hydrogen project in Teesside which is set to play a major role in supporting a reliable decarbonised power system by 2035 and accelerating industrial decarbonisation.

The partnership with Kellas Midstream will see the companies jointly develop H2NorthEast, a hydrogen production facility with carbon capture and storage that could help to kickstart a hydrogen economy in the Tees Valley. The agreement is for an initial consideration of <£10m to Kellas Midstream with further contingent consideration due should the project reach a financial investment decision.

In its first phase, H2NorthEast could deliver up to 355MW of blue hydrogen production capacity from 2028 with plans to scale up to more than 1GW. Offtakers would include heavy industry and power generation, either through blending into existing assets or in new hydrogen-fired plants.

Note.

  1. Production of 355 MW of hydrogen could start in 2028.
  2. Several existing processes have been converted from gas-firing to hydrogen-firing or a blend of natural gas and hydrogen firing. See Lime Kiln Fuelled By Hydrogen Shown To Be Viable.
  3. Teesside has quite a few industries, like steel and chemicals that theoretically could be  converted to hydrogen or a hydrogen blend.

I have some thoughts.

Carbon Capture And Storage

This paragraph in the press release talks about the carbon capture and storage.

With an anticipated minimum carbon capture rate of 97%, H2NorthEast meets both UK and EU low-carbon standards. Specifically, the hydrogen produced via H2NorthEast would be fully compliant with both the UK’s Low Carbon Hydrogen Standard and is expected to be aligned with the EU Taxonomy for sustainable activities.

If the plant can achieve a carbon capture rate of 97 %, that is very good and it appears to meet the required standards.

  • I also feel, that if it is of a high purity, then that could be a bonus, as it could be used in food manufacturing and other processes, where high purity is needed.
  • I feel SSE should endeavour to use as much of the carbon dioxide, as it can to produce valuable by-products, which could include cement substitutes, building blocks, plasterboard and animal feed.
  • Carbon dioxide can also be fed to soft fruit, salad vegetables, tomatoes, flowers and other plants in giant greenhouses or vertical farms.
  • Polyester yarn can also be made from carbon dioxide.

It is my belief that this list of products will grow in the next ten years and carbon dioxide of a high purity will become an important chemical feedstock.

Replacement of Blue Hydrogen With Green

If SSE Renewables were to build an electrolyser  near to H2NorthEast, they could use that to replace the blue hydrogen.

  • From an offtaker’s point of view green and blue hydrogen would be identical.
  • It’s just that the green hydrogen doesn’t produce any carbon dioxide.
  • I can see the complex being run to produce enough carbon dioxide to supply the users that need it and producing blue and/or green hydrogen accordingly.

Hopefully, the more uses that can be found for the carbon dioxide, the less of it will need to use long-term storage.

Expanding The Plant

As blue and green hydrogen plants create an identical product, the decision of whether to add an extra blue hydrogen or green hydrogen plant can be taken solely on financial grounds.

Conclusion

This looks like it could be a very sensible decision by SSE.

 

 

December 13, 2023 Posted by | Energy, Finance & Investment, Hydrogen | , , , , , , , , , | Leave a comment

Siemens Gamesa And Vestas Collaborate To Standardise Equipment For Transportation Of Wind Turbine Towers

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

This is the sub-heading.

Building on a previous collaboration focused on tower foundations and lifting guidelines, Siemens Gamesa and Vestas, facilitated by Energy Cluster Denmark, have signed a new partnership agreement to increase standardisation within the wind industry.

Surely standard sizes and similar designs will help any industry. Look at how containerisation has helped freight transportation.

These four paragraphs illustrate the problem and detail the solution.

Initially, the partners will standardise equipment for the transportation of wind turbine towers.

“Currently, whenever a wind turbine tower is shipped out for offshore installation, the manufacturer welds a box onto the installation vessel to which the tower is then clamped. The process is costly in terms of tons of iron and labour on the quayside. Once installation offshore is completed, all the equipment is removed from the vessel, which is again costly in terms of hours, money and the green transition,” said Jesper Møller, Chief Engineer in Offshore Execution at Siemens Gamesa.

The new partnership agreement comprises a series of projects involving equipment for and the storage of huge components produced by wind turbine manufacturers.

The first project focuses on sea fastening, involving securing towers, blades, and nacelles to installation vessels.

The article finished with statements about why standardisation is important.

December 13, 2023 Posted by | Design, Energy | , , , , , | Leave a comment

First German Zero-Subsidy Offshore Wind Farm Starts Taking Shape

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

This is the sub-heading.

Offshore installation work has started at the 913 MW Borkum Riffgrund 3, the first subsidy-free offshore wind farm in Germany to reach this development phase, Ørsted, the developer of the project, said.

These two paragraphs introduce the project.

The first of the 83 monopile foundations have now been installed at the site some 53 kilometres off the island of Borkum in the German North Sea by Jan De Nul’s Lez Alizés.

The installation directly follows the foundation work in the adjacent 253 MW Gode Wind 3 project, which is being built in parallel by Ørsted in the North Sea.

Ørsted’s web site gives this history of Borkum Riffgrund 3.

Borkum Riffgrund 3 is expected to be fully commissioned in 2025. It comprises three offshore wind projects which were originally awarded to Ørsted in auctions in 2017 and 2018 under the names of Borkum Riffgrund West 1, Borkum Riffgrund West 2 and OWP West. The three projects were renamed in September 2019 and will be built as one joint project under the name of Borkum Riffgrund 3.

Borkum Riffgrund 3 was awarded without subsidies to Ørsted. A number of companies across IT, retail and the chemicals industry have signed corporate power purchase agreements for Borkum Riffgrund 3.

If Ørsted is doing this in Germany, how come, we are not seeing more subsidy-free wind farms in Europe?

These two paragraphs from the article give a partial explanation.

After commissioning in 2025, a large part of the electricity generated by the wind farm will be used for the decarbonization of the industry – through the so-called Corporate Power Purchase Agreements (CPPAs). For the project, long-term power purchase agreements were concluded with the companies Covestro, Amazon, the Energie-Handels-Gesellschaft/REWE Group, as well as BASF and Google.

Shares for Borkum Riffgrund 3 were also sold to an institutional investor well before construction. In October 2021, Nuveen signed an agreement with Glennmont Partners to sell 50 percent of the shares in Borkum Riffgrund 3.

The article also states that Borkum Riffgrund 3 will be the largest offshore wind farm in Germany to date.

This Google Map shows the location of the German Borkum island to the North of the Dutch city of Groningen.

Note.

  1. Groningen is the city in the South-West corner of the map.
  2. Borkum is the horseshoe-shaped island at the top of the map.

There are a cluster of wind farms to the North of Borkum, which includes Borkum Riffgrund 1, 2 and 3.

 

December 13, 2023 Posted by | Energy, Finance & Investment | , , , , , , | Leave a comment

BW Ideol, ABP To Explore Serial Production Of Floating Wind Foundations At Port Talbot

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

This is the sub-heading.

BW Ideol and Associated British Ports (ABP) have signed a memorandum of understanding (MOU) that will see the manufacturer of concrete floating wind foundations and ABP investigating the feasibility of serial production at Port Talbot. The MOU has been signed in preparation for the Celtic Sea leasing round, BW Ideol said on Monday (11 December).

These two paragraphs outline the plans of BW Ideol and ABP have for Port Talbot.

According to the company, Port Talbot is the only Celtic Sea port with the scale and technical capabilities to fully maximise the Celtic Sea supply chain opportunity and is ideally located as a manufacturing base since it lies 120-140 kilometres from the floating offshore wind areas outlined by The Crown Estate for the upcoming leasing round.

The news on the MOU between ABP and BW Ideol comes shortly after ABP announced plans to invest around GBP 500 million (approximately EUR 573 million) to upgrade a site in Port Talbot and turn it into a major floating offshore wind hub.

This Google Map shows Port Talbot Port.

Note.

  1. It also looks like there is a Heidelberg Cement facility at the South side of the port.
  2. Port Talbot also has a Tata steelworks.
  3. The railway and the M4 Motorway are nearby.
  4. There’s certainly a lot of water.

The port appears well-placed for raw materials and there is quite a bit of free space to build and launch the concrete floaters.

This page on the BW  Ideol web site describes their Floatgen demonstrator.

The first section is headed by BW Ideol’s First Floater In Operation, where this is said.

Built around a European consortium of 7 partners, Floatgen is a 2MW floating wind turbine demonstrator installed off the coast of Le Croisic on the offshore experimentation site of the Ecole Centrale de Nantes (SEM-REV). This project is being supported by the European Union as part of the FP7 programme. Floatgen is France’s first offshore wind turbine. 5 000 inhabitants are supplied with its electricity.

It looks like it is or almost is a proven system.

The page talks of two large benefits.

  • Innovation at all levels.
  • The highest local content of any floating wind turbine.

For the second, the following is said

In comparison to other steel floating foundations, which are imported from abroad, the use of concrete for BW Ideol’s floating foundation allows the construction to be located as close as possible to the deployment site. Construction at the Saint-Nazaire port was therefore a natural and optimal solution and has created a lot of local content. Additionally, the mooring system was manufactured by LeBéon Manufacturing in Brittany. For the majority of all other components or logistical activities, the Floatgen partners have also opted for suppliers within the Saint-Nazaire region.

Note.

  1. Will ABP and BW Ideol use a similar philosophy at Port Talbot?
  2. Will low-carbon concrete be used to construct the floaters?

I can certainly see the logic of BW Ideol and ABP getting together at Port Talbot.

 

 

December 12, 2023 Posted by | Energy, Finance & Investment | , , , , , , , , , , | 3 Comments

« Previous Entries     Next Entries »