The Anonymous Widower

Neptune Energy, Ørsted And Goal7 Explore Powering Integrated Energy Hubs With Offshore Wind

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

These four paragraphs outline the agreement.

Neptune Energy today announced it has signed a Memorandum of Understanding with Ørsted and Goal7 to explore powering new integrated energy hubs in the UK North Sea with offshore wind-generated electricity.

Integrated energy hubs have the potential to combine multiple energy systems, including existing oil and gas production assets, carbon storage and hydrogen production facilities. They could extend the life of producing fields and support the economic case for electrification with renewable energy, to keep carbon emissions low.

The agreement will see the companies examine the potential to supply renewable electricity from Ørsted’s Hornsea offshore windfarm projects to power future Neptune-operated hubs in the UK North Sea.

Goal7 will provide project management support and technical input.

Note.

  1. Neptune Energy has three oil and gas fields in the UK North Sea; Cygnus (operational), Isabella (exploration) and Seagull (development)
  2. Gas from Cygnus comes ashore at the Bacton Gas Terminal.
  3. Ørsted owns the Hornsea wind farm, which when fully developed will have a capacity of around 6.5 GW.
  4. Cygnus and Hornsea could be not much further than 50 km apart.
  5. Seagull and Isabella are further to the North and East of Aberdeen.
  6. Ørsted has an interest in the Broadshore wind farm, which was numbered 8 in the ScotWind Leasing round.

These are my thoughts.

The Cygnus Gas Field And The Hornsea Wind Farm

This could be like one of those stories where boy meets the girl next door and they hit it off from the first day.

This page on the Neptune web site says this about the Cygnus gas field.

The biggest natural gas discovery in the southern North Sea in over 30 years is now the largest single producing gas field in the UK, typically exporting over 250 million standard cubic feet of gas daily. Cygnus contributes six per cent of UK gas demand, supplying energy to the equivalent of 1.5 million UK homes. It has a field life of over 20 years.

Two drilling centres target ten wells. Cygnus Alpha consists of three bridge-linked platforms: a wellhead drilling centre, a processing/utilities unit and living quarters/central control room. Cygnus Bravo, an unmanned satellite platform, is approximately seven kilometres northwest of Cygnus Alpha.

In 2022, we plan to drill two new production wells at Cygnus, with the first of these expected to come onstream in 4Q. The second well is due to be drilled in the fourth quarter and is expected onstream in the first quarter of 2023, with both wells helping to maintain production from the field and offset natural decline.

Gas is exported via a 55 km pipeline. Cygnus connects via the Esmond Transmission System (ETS) pipeline to the gas-treatment terminal at Bacton, Norfolk. Neptune Energy has a 25% minority interest in ETS.

Note.

  1. Cygnus with a twenty year life could be one of the ways that we bridge the gap until we have the two Cs (Hinckley Point and Sizewell) and a few tens of offshore wind gigawatts online.
  2. The two extra wells at Cygnus will help bridge the gap.
  3. The gas field has a pipeline to Bacton.

So what can the gas field and the wind farm, do for each other?

Hornsea Can Supply The Power Needs Of Cygnus

Typically, ten percent of the gas extracted from the wells connected to a gas platform, will be converted into electricity using one or more gas-turbine engines; which will then be used to power the platform.

So, if electricity from the Hornsea wind farm, is used to power the platform, there are two benefits.

  • More gas will be sent through the pipeline to Bacton.
  • Less carbon dioxide will be emitted in recovering the gas.

Effectively, electricity has been turned into gas.

Electricity Can Be Stored On The Sea-Bed

The Hornsea One wind farm has an area in the order of 150 square miles and it is only one wind farm of four, that make up the Hornsea wind farm.

I would argue that there is plenty of space between the turbines and the wells of the Cygnus gas field to install some form of zero-carbon underwater battery to store electricity.

But does this technology exist?

Not yet! But in UK Cleantech Consortium Awarded Funding For Energy Storage Technology Integrated With Floating Wind, I described a technique called Marine Pumped Hydro, which is being developed by the STORE Consortium.

  • Energy is stored as pressurised water in 3D-printed hollow concrete spheres fitted with a hydraulic turbine and pump.
  • The spheres sit on the sea-bed.
  • This page on the STORE Consortium web site, describes the technology in detail.
  • The technology is has all been used before, but not together.

I think it is excellent technology and the UK government has backed it with £150,000 of taxpayers’ money.

I also believe that Marine Pumped Hydro or something like it, could be the solution to the intermittency of wind farms.

Excess Electricity Can Be Converted Into Hydrogen

Any spare electricity from the wind farm can drive an electrolyser to convert it into hydrogen.

The electrolyser could be mounted on one of the Cygnus platforms, or it could even float.

The hydrogen produced would be blended with the gas and sent to Bacton.

Carbon Dioxide Can Be Stored In The Depleted Cygnus Gas Field

As the gas field empties of natural gas, the gas pipes to the Cygnus gas field can be reversed and used to bring carbon dioxide to the gas field to be stored.

The Cygnus gas field has gone full circle from providing gas to storing the same amount of carbon that the gas has produced in its use.

These are two paragraphs from the press release.

Neptune Energy’s Director of New Energy, Pierre Girard, said: “The development of integrated energy hubs is an important part of Neptune’s strategy to store more carbon than is emitted from our operations and the use of our sold products by 2030.

“Neptune has submitted three applications under the recent Carbon Dioxide Appraisal and Storage Licensing Round, and securing the licences would enable us to develop future proposals for integrated energy hubs in the UK North Sea.

I can envisage a large gas-fired power-station with carbon capture being built in Norfolk, which will do the following.

  • Take a supply of natural gas from the Cygnus gas field via the Bacton gas terminal.
  • Convert the hydrogen in the gas into electricity.
  • Convert the carbon in the gas into carbon dioxide.
  • Store the carbon dioxide in the Cygnus gas field via Bacton.
  • I also suspect, that if a Norfolk farmer, manufacturer or entrepreneur has a use for thousands of tonnes of carbon dioxide, they would be welcomed with open arms.

Would the ultra-greens of this world, accept this power station as zero-carbon?

The Isabella And Seagull Gas Fields And The Broadshore Wind Farm

Could a similar set of projects be applied to the Isabella and Seagull gas fields, using the Broadshore wind farm?

I don’t see why not and they could work with the Peterhead power stations.

December 30, 2022 Posted by | Energy, Hydrogen | , , , , , , , , , , , , , , , , , | 2 Comments

Do All Wind Turbines Have To Be Similar?

I feel this is a reasonable question to ask.

But do all wind turbines have to look like those in this picture?

Wikipedia lists three main types.

  1. Horizontal Axis – Those in the picture are of this type, as are all the large wind turbines I’ve seen in operation.
  2. Vertical Axis – Wikipedia shows several examples.
  3. Unconventional Types

Recently, I have come across some which would be placed in the last group.

Hybrid Offshore Wind And Wave Energy Systems

This article on the Journal of Physics is entitled Review of Hybrid Offshore Wind and Wave Energy Systems, is a study from serious academics.

This is the abstract.

Hybrid wind wave systems combine offshore wind turbines with wave energy on a shared platform. These systems optimize power production at a single location by harnessing both the wind and the waves. Wave energy is currently at an earlier development stage than offshore wind. Research in this area is focused in wave energy converters being used for platform motion suppression of floating offshore wind turbines. Wave energy converters can passively shelter offshore wind turbines from waves and can also be actively controlled to reduce the system loads. Additionally, a small amount of supplemental power may be generated, which can be used for offshore wind turbine local power needs. There may be future benefits to these hybrid systems, but at this stage wave energy may increase the project cost and risk of offshore wind turbines. Hybrid wind wave system research and development is discussed, with a focus on floating offshore wind turbines. Additionally, two ocean demonstration scale hybrid wind and wave systems are discussed as case studies: the Poseidon Wave and Wind system and the W2Power system. Hybrid wind wave systems show potential to be part of the future of offshore wind energy.

Note.

  1. Wave energy development is at an earlier stage than offshore wind.
  2. Wave energy converters can passively shelter offshore wind turbines from waves and can also be actively controlled to reduce the system loads.
  3. There is more about Poseidon on this page on the Tethys web site.
  4. There is more about W2Power on the Pelagic Power web site.

The last sentence of the abstract is significant and I believe that hybrid offshore wind and wave energy will play a significant part in the future of offshore energy.

Wind Turbines With Added Storage

Critics and cynics of wind power always ask, what happens, when the wind doesn’t blow.

It is generally accepted, that the best thing to do is to pair a wind farm with some form of energy storage.

Technologies and solar and/or wind farms with energy storage are starting to be proposed and/or installed.

More energy storage will be added in the future in or near to wind and solar farms.

Twin Turbines

This document from the Department of Business, Industry and Industrial Strategy lists all the Contracts for Difference Allocation Round 4 results for the supply of zero-carbon electricity.

One of the projects allocated a Contract for Difference, was the 32 MW TwinHub wind turbine, which I wrote about in Hexicon Wins UK’s First Ever CfD Auction For Floating Offshore Wind.

A full scale twin turbine hasn’t been built yet, but it does seem promising and the visualisations are impressive.

Scroll down on the TwinHub home page to see a video.

World Wide Wind

I’ll let the images on the World Wide Wind web site do the talking.

But who would have thought, that contrarotating wind turbines, set at an angle in the sea would work?

This is so unusual, it might just work very well.

Conclusion

There will be other unusual concepts in the future.

 

October 2, 2022 Posted by | Design, Energy, Energy Storage | , , , , , , , , | 1 Comment

UK Cleantech Consortium Awarded Funding For Energy Storage Technology Integrated With Floating Wind

The title of this post, is the same as that of this page on the UK Government’s Catapult Offshore Renewable Energy Web Site.

This is the introductory paragraph.

STORE, a UK-based cleantech consortium led by RCAM Technologies Limited, has been awarded £150,000 of funding to develop an advanced subsea energy storage technology manufactured using 3D printed concrete that could help offshore wind farms produce a steady and predictable energy output to the electricity grid.

This paragraph talks of the concept of Marine Pumped Hydro.

STORE is assessing the feasibility of integrating Marine Pumped Hydro (MPH) technology, which stores energy using hollow concrete spheres fitted with a hydraulic turbine and pump, with floating offshore wind plants in UK waters. In addition, the project advances the design of MPH systems and plans a prototype demonstration in the UK.

Note.

  1. The hollow concrete spheres are 3D-printed in concrete using the technology of RCAM Technologies.
  2. Spheres are structurally very strong.
  3. 3D printing of concrete is now mainstream technology and has been extensively used on the Elizabeth Line as I wrote about in The Story Behind The Concrete Panels On The Elizabeth Line.
  4. There is a visualisation on the Catapult web page, which shows several floating turbines, a floating sub station and several concrete hemispheres sitting on the seabed.
  5. The energy storage medium is sea water and air, which must be environmentally-friendly.

The technology is described in detail on this page of the STORE consortium web site.

  • The spheres are fifteen metres across.
  • The spheres can be installed at depths between 150 and 2000 metres.
  • The system has a round-trip efficiency is up to 70%, which is similar to pumped storage hydro.
  • The design life is 50 to 80 years.

I think that this system has possibilities.

This last paragraph in the Catapult web page gives a look into the future.

As well as improving the reliability and predictability of energy to the electricity grid, the project will support the cross sector transfer of UK offshore expertise and port infrastructure for use in renewable energy and create high-value UK jobs in engineering, construction, and operations and maintenance. This energy storage solution is ideally suited to coupling with floating wind plants and for powering offshore oil and gas assets from renewable energy. The 3D printed concrete also facilitates localized manufacturing and enables low cost fabrication of new and complex shapes that were previously not practical.

I also feel that if the concrete sphere energy storage can be made to successfully work, then the technology can surely be fitted to any offshore wind farm, by just adding the right number of spheres and connecting them to the offshore sub station.

The STORE Consortium

The STORE consortium has a web site, which has a heading of Innovative Subsea Energy Storage.

It describes the technology in this paragraph.

STORE is advancing a subsea energy storage technology called Marine Pumped Hydro (MPH). MPH uses large hollow concrete spheres on the seafloor to store mechanical energy in the form of pressure. MPH charges when seawater is pumped out of the spheres and releases energy to the grid when high-pressure water flows back into the spheres through a turbine. MPH features a patent-pending multi-sphere pod to increase the amount of energy stored and uses efficient 3D concrete printing to reduce manufacturing costs.

It sounds like an engineer with children, has been playing with them and their plastic toys in a bath and has had an Archimedes moment.

The project and its funding is described in this paragraph.

STORE was awarded £150,000 from the Department for Business, Energy & Industrial Strategy Longer Duration Energy Storage Demonstration (LODES) competition. Phase 1 will deliver a Feasibility Study focused on the design and analyses for the UK. Phase 2, if awarded, will design, manufacture, and operate a prototype system at TRL 6.

Note that TRL 6 is Technology Readiness Level 6 and is fully defined on this NASA web page, as having a fully functional prototype or representational model.

There is also an interesting link to the ScotWind N3 wind farm. that I wrote about in ScotWind N3 Offshore Wind Farm.

  • This is an unusual floating wind farm with a floating substation.
  • Technip and Loch Kishorn port are involved in both the wind farm and STORE.
  • Loch Kishorn has a history of building immense concrete structures.

I wouldn’t be surprised if this wind farm would be the location of the prototype system.

Conclusion

This is a brilliant concept.

  • It is the ideal energy storage system for offshore wind, as it can turn a wind farm with a variable output into one with a much more constant output.
  • It can be retrofitted to existing offshore wind farms.
  • It will work with both fixed and floating wind farms.
  • The concrete storage spheres can be fully assembled with all their electrical gubbins on shore and towed out, before sinking in the required position.

It also looks like the Department for Business, Energy & Industrial Strategy have got involved and helped with the funding. Someone there seems to know a good idea, when they see it!

 

September 21, 2022 Posted by | Energy, Energy Storage | , , , , , , , , , , , , , | 7 Comments