Norway’s Sovereign Wealth Fund Acquires Stake In 573 MW Race Bank Offshore Wind Farm
The title of this post, is the same as that of this article on offshoreWIND.biz.
This is the sub-heading.
A consortium made up of investment funds belonging to Australia-headquartered Macquarie Asset Management and Spring Infrastructure Capital has reached an agreement to divest a 37.5 per cent stake in the 573 MW Race Bank offshore wind farm in the UK to Norges Bank Investment Management.
These four paragraphs give more details of the deal.
The stake was sold to the Norwegian sovereign wealth fund for approximately GBP 330 million (about EUR 390.6 million).
According to Norges Bank Investment Management, the fund acquired Macquarie European Infrastructure Fund 5’s 25 per cent stake and Spring Infrastructure 1 Investment Limited Partnership’s 12.5 per cent interest in the Race Bank offshore wind farm.
A Macquarie Capital and Macquarie European Infrastructure Fund 5 consortium acquired a 50 per cent stake in Race Bank during the construction phase in 2016. Macquarie Capital divested its 25 per cent stake in the wind farm in 2017.
With the deal, Arjun Infrastructure Partners will remain co-investor for 12.5 per cent of the wind farm and Ørsted will remain a 50 per cent owner and operator of Race Bank.
These are my thoughts.
The Location of Race Bank Wind Farm
This map from the Outer Dowsing Web Site, shows Race Bank and all the other wind farms off the South Yorkshire, Lincolnshire and Norfolk coasts.
From North to South, wind farm sizes and owners are as follows.
- Hornsea 1 – 1218 MW – Ørsted, Global Infrastructure Partners
- Hornsea 2 – 1386 MW – Ørsted,Global Infrastructure Partners
- Hornsea 3 – 2852 MW – Ørsted
- Hornsea 4 – 2600 MW – Ørsted
- Westernmost Rough – 210 MW – Ørsted and Partners
- Humber Gateway – 219 MW – E.ON
- Triton Knoll – 857 MW – RWE
- Outer Dowsing – 1500 MW – Corio Generation, TotalEnergies
- Race Bank – 573 MW – Ørsted,
- Dudgeon – 402 MW – Equinor, Statkraft
- Lincs – 270 MW – Centrica, Siemens, Ørsted
- Lynn and Inner Dowsing – 194 MW – Centrica, TCW
- Sheringham Shoal – 317 MW – Equinor, Statkraft
- Norfolk Vanguard West – 1380 MW – RWE
Note.
- There is certainly a large amount of wind power on the map.
- Hornsea 1, 2 and 3 supply Humberside.
- Hornsea 4 will supply Norwich and North Norfolk.
- Norfolk Vanguard West would probably act with the other two wind farms in RWE’ Norfolk cluster.
- Ignoring Hornsea and Norfolk Vanguard West gives a total around 4.5 GW.
- There are also two 2 GW interconnectors to Scotland (Eastern Green Link 3 and Eastern Green Link 4) and the 1.4 GW Viking Link to Denmark.
I wouldn’t be surprised to see a large offshore electrolyser being built in the East Lincolnshire/West Norfolk area.
The primary purpose would be to mop up any spare wind electricity to avoid curtailing the wind turbines.
The hydrogen would have these uses.
- Provide hydrogen for small, backup and peaker power stations.
- Provide hydrogen for local industry, transport and agriculture,
- Provide hydrogen for off-gas-grid heating.
- Provide methanol for coastal shipping.
Any spare hydrogen would be exported by coastal tanker to Germany to feed H2ercules.
Do We Need Wind-Driven Hydrogen Electrolysers About Every Fifty Miles Or so Along The Coast?
I can certainly see a string along the East Coast between Humberside and Kent.
- Humberside – Being planned by SSE
- East Lincolnshire/West Norfolk – See above
- North-East Norfolk – See RWE Goes For An Additional 10 GW Of Offshore Wind In UK Waters In 2030.
- Dogger Bank – See RWE Goes For An Additional 10 GW Of Offshore Wind In UK Waters In 2030.
- Sizewell – See Sizewell C And Hydrogen.
- Herne Bay – Under construction
I can see others at possibly Freeport East and London Gateway.
Vestas’s 15 MW Wind Turbine Up At Danish Port of Thyborøn
The title of this post, is the same as that of this article on offshoreWIND.biz.
This is the sub-heading.
Vestas has completed the installation of its V236-15.0 MW offshore wind turbine in the Port of Thyborøn in Denmark, only three months after the port ordered the company’s flagship model.
This is the first paragraph.
On 8 June, the wind turbine produced its first kWh of power, a crucial step in the final verification campaign, Vestas said in a social media post.
I suspect that soon, Vestas will be accepting orders for these large turbines.
The Core Of Sunak’s Manifesto
I have a feeling, that the core of Sunak’s manifesto is a massive German project called H2ercules, which is intended to bring low-carbon hydrogen to industry in South Germany.
There will be a massive hydrogen hub at Wilhelmshaven on the North-Western coast, which is being built by Uniper, from which hydrogen will be imported and distributed.
I suspect that the Germans aim to source the hydrogen worldwide from places like Australia, the Middle East and Namibia. It would be brought from and round the Cape by tanker. The Suez route would be too risky.
But RWE, who are one of the UK’s largest electricity suppliers, are planning to deliver 7.2 GW of electricity in British waters on the Dogger Bank and North-East of Great Yarmouth.
Both wind farms would be difficult to deliver profitably to the UK, because Eastern England already has enough electricity and the Nimbies are objecting to more pylons.
I believe that RWE will build offshore electrolysers and coastal hydrogen tankers will take the hydrogen to Wilhelmshaven.
H2ercules will be fed with the hydrogen needed.
By the end of the next parliament, the Germans could be paying us substantial sums for green hydrogen, to decarbonise their industry.
Rishi Sunak hinted in his speech, that we will be exporting large amounts of energy.
Much of it will be in the form of green hydrogen to Germany.
If we need hydrogen for our industry, we would create it from some of our own wind farms.
RWE Goes For An Additional 10 GW Of Offshore Wind In UK Waters In 2030
This press release from RWE is entitled RWE And Masdar Join Forces To Develop 3 Gigawatts Of Offshore Wind Projects Off The UK Coast.
This is the last paragraph.
The UK plays a key role in RWE’s strategy to grow its offshore wind portfolio RWE is a leading partner in the delivery of the UK’s Net Zero ambitions and energy security, as well as in contributing to the UK build-out target for offshore wind of 50 GW by 2030. RWE already operates 10 offshore wind farms across the UK. Following completion of the acquisition of the three Norfolk offshore wind projects from Vattenfall announced at the end of 2023, RWE is developing nine offshore wind projects in the UK, representing a combined potential installed capacity of around 9.8 GW, with RWE’s pro rata share amounting to 7 GW. Furthermore, RWE is constructing the 1.4 GW Sofia offshore wind project in the North Sea off the UK’s east coast. RWE’s unparalleled track record of more than 20 years in offshore wind has resulted in 19 offshore wind farms in operation, with a goal to triple its global offshore wind capacity from 3.3 GW today to 10 GW in 2030.
Note.
- Nine offshore wind projects in the UK, representing a combined potential installed capacity of around 9.8 GW
- RWE are saying they intend to add 6.7 GW in 2030.
The eight offshore wind farms, that RWE are developing in UK waters would appear to be.
- Sofia – 1,400 MW
- Norfolk Boreas – 1380 MW
- Norfolk Vanguard East – 1380 MW
- Norfolk Vanguard West – 1380 MW
- Dogger Bank South – 3000 MW
- Awel y Môr – 500 MW
- Five Estuaries – 353 MW
- North Falls – 504 MW
This is a total of 9897 MW, which ties in well with RWE’s new capacity figure of 9.8 GW.
The Location Of RWE’s Offshore Wind Farms
RWE’s wind farms seem to fit in groups around the UK.
Dogger Bank
This wind farm is on the Dogger Bank.
- Dogger Bank South – 3000 MW – Planned
This wind farm would appear to be rather isolated in the middle of the North Sea.
RWE could have plans to extend it or even link it to other wind farms in the German area of the Dogger Bank.
Lincolnshire Coast
This wind farm is along the Lincolnshire Coast.
- Triton Knoll – 857 MW – 2022
As there probably isn’t much heavy industry, where Triton Knoll’s power comes ashore, this wind farm can provide the power needed in the area.
But any excess power in the area can be exported to Denmark through the Viking Link.
Norfolk Coast
These wind farms are along the Norfolk Coast.
- Norfolk Boreas – 1380 MW – Planned
- Norfolk Vanguard East – 1380 MW – Planned
- Norfolk Vanguard West – 1380 MW – Planned
These three wind farms will provide enough energy to provide the power for North-East Norfolk.
North Wales Coast
These wind farms are along the North Wales Coast.
- Awel y Môr – 500 MW – Planned
- Gwynt y Môr – 576 MW – 2015
- Rhyl Flats – 90 MW – 2009
- North Hoyle – 60 MW – 2003
These wind farms will provide enough energy for the North Wales Coast.
Any spare electricity can be stored in the 1.8 GW/9.1 GWh Dinorwig pumped storage hydroelectric power station.
Electric Mountain may have opened in 1984, but it is surely a Welsh giant decades ahead of its time.
Suffolk Coast
These wind farms are along the Suffolk Coast.
- Five Estuaries – 353 MW – Planned
- Galloper – 353 MW – 2018
- North Falls – 504 MW – Planned
These wind farms will provide enough energy for the Suffolk Coast, which except for the Haven Ports, probably doesn’t have many large electricity users.
But if the area is short of electricity, there will be Sizewell B nuclear power station to provide it.
Teesside
This wind farm is along the Teesside Coast
- Sofia – 1,400 MW – Planned
Teesside is a heavy user of electricity.
These six areas total as follows.
- Dogger Bank – 3,000 MW
- Lincolnshire Coast – 857 MW
- Norfolk Coast – 4140 MW
- North Wales Coast – 1226 MW
- Suffolk Coast – 1210 MW
- Teesside – 1,400 MW
Backup for these large clusters of wind farms for when the wind doesn’t blow will be provided as follows.
- Dogger Bank – Not provided
- Lincolnshire Coast- Interconnectors to Denmark and Scotland
- Norfolk Coast – Not provided
- North Wales Coast – Stored in Dinorwig pumped storage hydroelectric power station
- Suffolk Coast – Sizewell B and Sizewell C
- Teesside – Interconnectors to Norway and Scotland and Hartlepool nuclear power stations
Note.
- The interconnectors will typically have a 2 GW capacity.
- The 1.9 GW/9.1 GWh Dinorwig pumped storage hydroelectric power station must be one of the best wind farm backups in Europe.
There is a very solid level of integrated and connected assets that should provide a reliable power supply for millions of electricity users.
How Will Dogger Bank And The Norfolk Coast Wind Clusters Work Efficiently?
The Dogger Bank and the Norfolk Coast clusters will generate up to 3 and 4.14 GW respectively.
So what purpose is large amounts of electricity in the middle of the North Sea?
The only possible purpose will be to use giant offshore electrolysers to create hydrogen.
The hydrogen will then be transported to point of use by pipeline or tanker.
Feeding H2ercules
I described H2ercules in H2ercules.
H2ercules is an enormous project that will create the German hydrogen network.
The H2ercules web site, shows a very extensive project, as is shown by this map.
Note.
- Hydrogen appears to be sourced from Belgium, the Czech Republic, The Netherlands and Norway.
- RWE’s Dogger Bank South wind farm will be conveniently by the N of Norway.
- RWE’s Norfolk cluster of wind farms will be conveniently by the N of Netherlands.
- The Netherlands arrow points to the red circles of two hydrogen import terminals.
For Germany to regain its former industrial success, H2ercules will be needed to be fed with vast amounts of hydrogen.
And that hydrogen could be in large amounts from the UK sector of the North Sea.
Uniper’s Wilhelmshaven Hydrogen Hub
This page on the Uniper web site is entitled Green Wilhelmshaven: To New Horizons
This Uniper graphic shows a summary of gas and electricity flows in the Wilhelmshaven Hydrogen Hub.
Note.
- Ammonia can be imported, distributed by rail or ships, stored or cracked to provide hydrogen.
- Wilhelmshaven can handle the largest ships.
- Offshore wind energy can generate hydrogen by electrolysis.
- Hydrogen can be stored in underground salt caverns.
I suspect hydrogen could also be piped in from an electrolyser in the East of England or shipped in by a hydrogen tanker.
All of this is well-understood technology.
Sunak’s Magic Money Tree
Rishi Sunak promised a large giveaway of tax in his manifesto for the 2024 General Election.
As we are the only nation, who can provide the colossal amounts of hydrogen the Germans will need for H2ercules, I am sure we will be well paid for it.
A few days ago we celebrated D-Day, where along with the Americans and the Canadians, we invaded Europe.
Now eighty years later, our hydrogen is poised to invade Europe again, but this time for everybody’s benefit.
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 believe that could be Rishi’s Magic Money Tree.
Especially, if the energy is exported through electricity interconnectors or hydrogen or ammonia pipelines and tankers.
Will This Be A Party Anyone Can Join?
Other wind farm clusters convenient for the H2ercules hydrogen import terminals on the North-West German coast include.
- Dogger Bank – SSE, Equinor – 5008 MW
- East Anglian – Iberdrola – 3786 MW
- Hornsea – Ørsted – 8056 MW
That totals to around 16.5 GW of wind power.
I can see offshore electrolysers producing hydrogen all around the coasts of the British Isles.
What Happens If Sunak Doesn’t Win The Election?
RWE and others have signed contracts to develop large wind farms around our shores.
They didn’t do that out of the goodness of their hearts, but to make money for themselves and their backers and shareholders.
Conclusion
I believe a virtuous circle will develop.
- Electricity will be generated in the UK.
- Some will be converted to hydrogen.
- Hydrogen and electricity will be exported to the highest bidders.
- European industry will, be powered by British electricity and hydrogen.
- Money will be paid to the UK and the energy suppliers for the energy.
The more energy we produce, the more we can export.
In the future more interconnectors, wind farms and electrolysers will be developed.
Everybody will benefit.
As the flows grow, this will certainly become a Magic Money Tree, for whoever wins the election.
Highland Council Greenlights West Of Orkney Windfarm Onshore Plans
The title of this post, is the same as that of this article on offshoreWIND.biz.
This is the sub-heading.
The Highland Council has approved the onshore plans of the 2 GW West of Orkney Windfarm project, being developed by TotalEnergies, Corio Generation, and Renewable Infrastructure Development Group (RIDG) in Scotland.
These are the first three paragraphs.
The onshore application for planning permission in principle was approved on 4 June and outlines the underground cables and electrical infrastructure required to connect the offshore wind farm to the national transmission network.
Last year, the project became the first ScotWind proposal to submit both its offshore consent application to Scottish Ministers and its onshore planning application to The Highland Council.
The onshore application provides information on proposed cable landfalls on the north Caithness coast, the project’s substation at Spittal in Caithness, and the underground cables which will extend around 25 kilometres and connect to the substation.
According to the project page of the West of Orkney wind farm web site, the target for commissioning of the wind farm is 2029.
This wind farm appears to be making a play to be the first of the ScotWind Leasing developments to be commissioned.
I have some thoughts.
Converting The Flotta Oil Terminal To The Flotta Hydrogen Hub
This first paragraph of the Wikipedia entry for the Flotta Oil Terminal, describes it like this.
The Flotta oil terminal is a major crude oil reception, processing, storage and export facility on the island of Flotta, in the south of Scapa Flow in the Orkney Islands. It receives and processes crude oil delivered by a subsea pipeline from the Piper, Claymore, Tartan and Golden Eagle platforms and associated fields. The terminal includes facilities for exporting stabilised crude oil (and formerly liquefied petroleum gases) by tanker.
It is now proposed to add the Flotta Hydrogen Hub to the Flotta Oil Terminal.
This document on the Repsol web site, describes the Flotta Oil Terminal.
- This page is the Flotta Hydrogen Hub web site.
- This page discusses, what will be done with the green hydrogen produced by electrolysis.
- The green hydrogen page, has an excellent map of the hydrogen and electricity flows to and from the Flotta Hydrogen Hub.
The Flotta Oil Terminal will be developed into a major hydrogen production and distribution facility.
UK Offshore Wind In 2030
The next general election is likely to be held in 2029, so how much wind energy will be added during the next Parliament?
The Current Position
The Wikipedia entry for the list of operational wind farms in the UK, says this.
In October 2023, there were offshore wind farms consisting of 2,695 turbines with a combined capacity of 14,703 megawatts.
Due To Be Commissioned In 2024
It would appear these wind farms will come on-line in 2024.
- Neart Na Gaoithe – 450 MW – Fixed
- Doggerbank A – 1235 MW – Fixed
- Doggerbank B – 1235 MW – Fixed
This would add 2920 MW to give a total of 17,623 MW.
Due To Be Commissioned In 2025
It would appear these wind farms will come on-line in 2025.
- Moray West – 882 MW – Fixed
- Doggerbank C – 1218 MW – Fixed
This would add 2100 MW to give a total of 19,723 MW.
Due To Be Commissioned In 2026
It would appear these wind farms will come on-line in 2026.
- Sofia – 1400 MW – Fixed
- East Anglia 3 – 1372 MW – Fixed
- East Anglia 1 North – 800 MW – Fixed
- East Anglia 2 – 900 MW – Fixed
- Pentland – 100 MW – Floating
This would add 4572 MW to give a total of 24,295 MW.
Due To Be Commissioned In 2027
It would appear these wind farms will come on-line in 2027.
- Hornsea 3 – 2852 MW – Fixed
- Norfolk Boreas – 1380 MW – Fixed
- Llŷr 1 – 100 MW – Floating
- Llŷr 2 – 100 MW – Floating
- Whitecross – 100 MW – Floating
This would add 4532 MW to give a total of 28,827 MW.
Due To Be Commissioned In 2028
It would appear these wind farms will come on-line in 2028.
- Morecambe – 480 MW – Fixed
This would add 480 MW to give a total of 29,307 MW.
Due To Be Commissioned In 2029
It would appear these wind farms will come on-line in 2029.
- West Of Orkney – 2000 MW – Fixed
This would add 2000 MW to give a total of 31,307 MW.
Due To Be Commissioned In 2030
It would appear these wind farms will come on-line in 2030.
- Ramplion 2 Extension – 1200 MW – Fixed
- Norfolk Vanguard East – 1380 MW – Fixed
- Norfolk Vanguard West – 1380 MW – Fixed
- Awel y Môr – 1100 MW – Fixed
- Berwick Bank – 4100 MW – Fixed
- Outer Dowsing – 1500 MW – Fixed
- Hornsea 4 – 2600 MW – Fixed
- Caledonia – 2000 MW – Fixed
- N3 Project – 495 MW – Fixed/Floating
This would add 15755 MW to give a total of 47.062 MW.
Capacity Summary
- 2023 – None – 14703 MW
- 2024 – 2920 MW – 17,623 MW
- 2025 – 2100 MW – 19,723 MW
- 2026 – 4572 MW – 24,295 MW
- 2027 – 4532 MW- 28,827 MW
- 2028 – 480 MW – 29,307 MW
- 2029 – 2000 MW – 31,307 MW
- 2030 – 15755 MW – 47,062 MW
Note that capacity has increased more than threefold.
If we assume the following.
- New wind farms are commissioned throughout the year.
- 14703 MW of wind power, with all our gas-fired, nuclear and onshore wind farms is enough to power the UK.
- The average capacity factor is 45 %.
- The strike price is £35/MWh.
The levels I have set are deliberately on the low side.
The amount of energy and cash flow generated by new wind farms in a year can be calculated as follows.
{Average New Capacity In Year}= ({Capacity at Year Start}+{Capacity at Year End})/2-14703
{Extra Electricity Generated In Year}= {Average New Capacity In Year}*365*24*{Capacity Factor}
{Cash Flow}={Extra Electricity Generated In Year} * {Strike Price}
The following figures are obtained.
- 2024 – 1460 MW – 5,755,320 MWh – £ 201,436,200
- 2025 – 3970 MW – 15,649,740 MWh – £ 547,740,900
- 2026 – 7306 MW – 28,800,252 MWh – £ 1,008,008,820
- 2027 – 11858 MW – 46,744,236 MWh – £ 1,636,048,260
- 2028 – 14,364 MW – 56,622,888 MWh – £ 1,981,801,080
- 2029 – 15,604 MW – 61,510,968 MWh – £ 2,152,883,880
- 3030 – 23,931.5 MW – 94,337,973 MWh – £ 3,301,829,055
Nate.
- The first column is the cumulative amount of new capacity about the 14,703 MW in December 2023.
- The second column is the extra electricity generated in the year over December 2023.
- The third column is the extra cash flow in the year over December 2023.
As the installed base of wind farms increases, the cash flow increases.
It should also be noted that there are a large number of wind farms, already pencilled in for 2031-2035.
What Will We Do With All This Extra Electricity?
We need more industries that will consume a lot of electricity, like cement, chemicals and steel.
But I suspect that the easiest thing to do, is to convert the excess electricity to hydrogen and export it to the Continent and especially the Germans by pipeline or tanker.
Conclusion
Whoever wins this year’s General Election, should have a growing source of revenue for the life of the parliament and beyond.
TetraSpar Demonstrator Floating Wind Turbine Hits 63 Pct Capacity Factor In Norway
The title of this post, is the same as that of this article on offshoreWIND.biz.
This is the sub-heading.
Stiesdal has revealed that its TetraSpar Demonstrator, located in Norway, has reached a capacity factor of 63 per cent.
These three paragraphs give a few more details.
Since its commissioning in late 2021, the TetraSpar Demonstrator has been operational at METCentre in Norway, delivering green energy, gathering data, validating numerical models, supporting research and development projects, and serving as a living laboratory for the development of floating wind technology, said Stiesdal in a recent social media post.
To date, the demonstrator has generated more than 37 GWh of renewable energy, according to the company. The 3.6 MW Siemens Gamesa direct-drive wind turbine and very high wind speeds at the METCentre site combined to yield a capacity factor of 54 per cent, said Stiesdal.
In the first two years of operation, the availability was recorded at 97 per cent and 98.3 per cent, respectively. For 2024, the availability has increased to 99.5 per cent with a capacity factor of almost 63 per cent, according to the company.
I have some further thoughts.
Tetra Offshore Foundations For Any Water Depth
The title of this section, is the same as that of this page on the Siesdal web site.
The page gives a lot of information and says that the TetraSpar can handle water depth of over a thousand metres.
Wind Farm Capacity Factor
The Wikipedia entry for capacity factor says this about the range of wind farm capacity factors.
Wind farms are variable, due to the natural variability of the wind. For a wind farm, the capacity factor is determined by the availability of wind, the swept area of the turbine and the size of the generator. Transmission line capacity and electricity demand also affect the capacity factor. Typical capacity factors of current wind farms are between 25 and 45%. In the United Kingdom during the five year period from 2011 to 2019 the annual capacity factor for wind was over 30%.
From that paragraph, 63 % seems to be extraordinarily good.
Conclusion
The TetraSpar appears to be a powerful concept.
Redevelopment Of Scottish Port Begins As Owner Secures GBP 400 Million For Offshore Wind Upgrade
The title of this post, is the same as that of this article on offshoreWIND.biz.
This is the sub-heading.
Haventus, the owner of the Ardersier Port in the Moray Firth, Scotland, has taken a final investment decision and kicked off construction work on redeveloping the port to serve both fixed-bottom and floating offshore wind projects. The revamped port is expected to open in the second half of 2025.
These are the first two paragraphs.
This month, Haventus was granted a GBP 100 million (approximately 117 million) joint credit facility from the Scottish National Investment Bank and UK Infrastructure Bank with GBP 50 million (approx. EUR 58.5 million) investment from each.
This follows a GBP 300 million (approx. 351 million) investment commitment by the energy investment firm Quantum Capital Group in 2023 when Haventus began the redevelopment of Ardersier Port.
This page on the Haventus web site, gives more details of the Port of Ardersier.
Included are.
- Access channel width – 160 m.
- Access channel depth – 12.4 m.
- Landside area – 350 acres.
- 420m main quay.
- 80 m Ro/Ro capable berth.
- People-friendly midges
- Green Freeport tax site designation
- More space is available if required.
There is also an informative video.
Haventus say they are delivering a world-leading energy transition facility. I can go along with that!
These are my thoughts.
The Location Of The Port of Ardersier
This Google Map shows the location of the Port of Ardersier.
Note.
- The large expanse of water in the middle of the map is Moray Firth.
- The blue arrow at the bottom of the map indicates Inverness Airport.
- Inverness Airport, has a railway station on the Aberdeen and Inverness Line.
- The village of Ardersier is on the the Eastern bank of the Moray Firth
- The Port of Ardersier is in the North-East corner of the map.
The city of Inverness, with a population of around 48,000, is a few miles South-West of the South-West corner of the map.
Which Windfarms Will Be Built And Serviced From The Port Of Ardersier?
This map shows the various ScotWind leases, around the North of Scotland.
The numbers are Scotwind’s lease number in their documents.
These are the Scotwind wind farms to the North-East of Scotland, that could reasonably be assumed to be built and served from the Port of Ardersier.
- 7 – DEME Concessions Wind – 200 km² – 1.0 GW – Floating
- 8 – Falck Renewables Wind – 256 km² – 1.0 GW – Floating
- 9 – Ocean Winds – 429 km² – 1.0 GW – Fixed
- 10 – Falck Renewables Wind – 134 km² – 0.5 GW – Floating
- 11 – Scottish Power Renewables – 684 km² – 3.0 GW – Floating
- 12 – BayWa r.e. UK – 330 km² – 1.0 GW – Floating
These are the Scotwind wind farms to the North-West of Scotland, that could reasonably be assumed to be built and served from the Port of Ardersier.
- 13 – Offshore Wind Power – 657 km² – 2.0 GW – Fixed or Floating
- 14 – Northland Power – 390 km² – 1.5 GW – Floating
- 15 – Magnora – 103 km² – 0.5 GW – Floating
- 16 – Northland Power – 161 km² – 0.8 GW – Floating
These ten wind farms add up to 12.3 GW.
Transport
Consider.
- Obviously, heavy components will be brought in by sea, using the Ro/Ro capable berth or using a crane to unload a barge.
- Personnel will be able to fly in for the day.
- Will some visitors rom London use the Caledonian Sleeper to and from Inverness station to get a full day on site and a good night’s sleep, whilst travelling.
But I do see a problem with local traffic to and from the site.
Hydrogen Buses
This page on the Sizewell C web site, discusses how they will use hydrogen buses.
I could see the Port of Ardersier taking a leaf out of Sizewell C’s book and run hydrogen buses to Inverness, Inverness Airport and other nearby towns.
The North of Scotland certainly won’t be short of green hydrogen to power the buses.
Hydrogen
Conclusion
If you thought that the only useful wind-driven thing to come out of Scotland was bagpipes, you had better think again.
The Port of Ardersier will be the factory and operation and maintenance port for one of the largest offshore wind industries in the world.
Ørsted, Simply Blue, Subsea7 Submit Application For 100 MW Scottish Floating Wind Farm
The title of this post, is the same as that of this article on offshoreWIND.biz.
This is the sub-heading.
Ørsted, Simply Blue Group and Subsea7, through their joint venture partnership in Scotland, have submitted an offshore consent application for the proposed 100 MW Salamander floating offshore wind farm, one of the 13 projects selected in Scotland’s Innovation and Targeted Oil and Gas (INTOG) leasing round.
The article starts with a map that shows the location of the Salamander floating offshore wind farm and it shows how the sea is getting very crowded 35 kilometres off Peterhead.
This map shows the various ScotWind leases, around the North of Scotland.
The numbers are Scotwind’s lease number in their documents.
These are the Scotwind wind farms to the North-East of Scotland.
- 1 – BP Alternative Energy Investments – 859 km² – 2.9 GW – Fixed
- 2 – SSE Renewables – 859 km² – 2.6 GW – Floating
- 3 – Falck Renewables Wind – 280 km² – 1.2 GW – Floating
- 4 – Shell – 860 km² – 2.0 GW – Floating
- 5 – Vattenfall – 200 km² – 0.8 GW – Floating
- 6 – DEME – 187 km² – 1.0 GW – Fixed
- 9 – Ocean Winds – 429 km² – 1.0 GW – Fixed
- 10 – Falck Renewables Wind – 134 km² – 0.5 GW – Floating
- 11 – Scottish Power Renewables – 684 km² – 3.0 GW – Floating
- 12 – BayWa r.e. UK – 330 km² – 1.0 GW – Floating
Note.
- Salamander is located to the South of wind farms 10, 11 and 12 and to the North-West of wind farm 5.
- These windfarms total up to 16 GW.
- 4.9 GW are fixed foundation wind farms.
- 11.1 GW are floating wind farms.
These are my thoughts.
The Salamander Project
In the big scheme of things, the 100 MW Salamander wind farm, is rather a tiddler of a wind farm.
On the Salamander wind farm web site, a section gives the Project Goals.
- Our innovative pre-commercial stepping-stone concept will use novel floating foundations to (i) maximise Scottish content, (ii) enable the Scottish supply chain to gear up for the future floating offshore wind commercial opportunities in ScotWind and (iii) reduce the financial, environmental and technology risks of floating offshore wind.
- The Salamander project will contribute to the Scottish Government and UK Government net-zero targets. The project can contribute to the Scottish government’s target of 11 GW of installed offshore wind by 2030, as well as the UK government’s target of 5 GW of operational floating offshore wind by the same date.
- We are dedicated to developing a sustainable and transformative project, working with the oceans, and enabling communities to benefit from Project Salamander. Therefore, we commit to having a continuous and strong stakeholder and community engagement.
It appears to me, that the Salamander project will be a pathfinder for the 11.1 GW of floating wind farms to be built off Peterhead.
Bringing The Electricity South
National Grid are building four interconnectors between Eastern Scotland and Eastern England.
- Eastern Green Link 1 – Torness and Hawthorn Pit
- Eastern Green Link 2 – Peterhead and Drax
- Eastern Green Link 3 – Westfield and Lincolnshire
- Eastern Green Link 4 – Peterhead and Lincolnshire
Note.
- All interconnectors are 2 GW.
- All interconnectors are offshore for a long part of their route.
- It also appears that National Grid are burying much of the onshore sections.
But the 4 GW of interconnectors will only be able to bring a quarter of the offshore electricity generated in the Peterhead area to the South.
What Will Happen To The Excess Electricity?
Consider.
- There could be 16 GW of planned offshore wind power around Peterhead and North-East Scotland.
- There is only 4 GW of interconnector capacity between Peterhead and Eastern England.
- There is another 6.8 GW of electricity around North-West Scotland.
- There is 2.8 GW of electricity being developed to the East of Shetland.
- The Crown Estate is thinking of increasing the size of some offshore wind farms.
It is likely, that other wind farms will be built in the seas around the North of Scotland.
It appears that the North of Scotland could have at least 20 GW of excess electricity.
Possible solutions would include.
- Developing energy intensive industries like metal refining.
- More interconnectors to Denmark, England, Ireland and Norway.
- Storage of the electricity in giant pumped storage hydroelectric power stations.
- Creation of green hydrogen for export.
Note.
- Aluminium refining has been developed in the North of Scotland before.
- More interconnectors are a possibility, especially as Scotland is developing cable manufacturing capacity.
- Some maps show extra interconnectors between West Scotland and Merseyside.
- At least 70 GWh of pumped storage hydroelectric power stations are being developed along the Great Glen.
- I suspect that the pumped storage hydroelectric power stations could be connected to the wind farms, by cables under the waters of Loch Ness.
But surely, production of green hydrogen for export would be a very good way to go.
- Extra electrolysers could be added as required.
- Because of the interconnectors down both East and West Coasts, electrolysers could be built in England, where there is a large need for hydrogen.
- Hydrogen would be exported initially by tanker ships.
- At some point in the future, it might be viable to build a hydrogen pipeline to connect to the growing European hydrogen network.
The giant pumped storage hydroelectric power stations and the hydrogen electrolysers would be sized to make sure, that no wind power is never wasted.
Conclusion
The 100 MW Salamander floating wind farm may only be small, but it will prove the technology, the manufacturing and the supply chains, so that Scotland can have a second energy boom from the North Sea.
But this boom will certainly last longer than a hundred years.
Mercia Power Response & RheEnergise Working Together To Build Long Duration Energy Storage Projects In The UK
The title of this post, is the same as that as this news item from Mercia PR.
As it is from the 16th of August last year, I wonder why my Google Alert didn’t pick it up.
This is the sub-heading.
Mercia Power Response, a key provider of flexible power response services to the UK grid, has signed an agreement with RheEnergise to explore the potential deployment of RheEnergise’s new and innovative form of long-duration hydro-energy storage, known as High-Density Hydro® (HD Hydro).
These are the first three paragraphs.
Mercia Power Response, a key provider of flexible power response services to the UK grid, has signed an agreement with RheEnergise to explore the potential deployment of RheEnergise’s new and innovative form of long-duration hydro-energy storage, known as High-Density Hydro® (HD Hydro). Mercia Power Response (“Mercia PR”) and RheEnergise will work together to identify suitable sites for additional HD Hydro storage projects. The two companies’ initial focus will be the feasibility of getting 100MW of HD Hydro in commercial operation by 2030 by utilising Mercia PR’s existing grid connections.
With 40 sites having a combined capacity of 263MW and a number of sites under development and construction over the next 5-10 years, Mercia PR believes that RheEnergise’s HD Hydro storage technology would be a complementary, low carbon solution to its operating portfolio.
Additionally, Mercia PR’s industry partners bring market expertise in energy trading and forecasting, helping RheEnergise to optimise grid-connected energy storage projects.
Note.
- The average size of Mercia PR’s batteries would appear to be 6.5 MW.
- Working on the often-used two-hour duration, that would be a storage capacity of 13 MWh.
- I suspect some of Mercia PR’s sites will be more suitable for lithium-ion batteries and some will be more suitable for RheEnergise’s HD Hydro systems.
- I have witnessed local Nimbys objecting to lithium-ion systems on grounds of the fire risk.
- I am fairly sure, that the National Grid will be able to cope with both lithium-ion batteries and RheEnergise’s HD Hydro systems.
- I suspect Mercia PR’s industry partners, with their market expertise in energy trading and forecasting, could turn a small wind or solar farm into a nice little earner.
This looks to be a good fit between two innovative companies.
The Anonymous Widower 