Plus Power Raises USD 1.8bn For Energy Storage In Texas, Arizona
The title of this post, is the same as that of this article on Renewables Now.
These two paragraphs outline the story.
Houston-based battery systems developer Plus Power LLC unveiled on Tuesday the completion of USD 1.8 billion (EUR 1.7bn) in new financing for the construction and operation of five standalone energy storage projects in Texas and Arizona.
The financing commitments, arranged in the form of construction and term financings, letters of credit, and tax equity investments, are dedicated to five projects with a combined capacity of 1,040 MW/2,760 MWh.
Note.
- This financing indicates how those banks and financial institutions with masses of money are prepared to put that money into energy storage.
- It is also good to see, that the journalist who wrote the story has given both the output of these batteries and their storage capacity.
- I can see many deals like this being done in the next few years.
But when will we see a financing deal like this for some of the other methods of storage that are being developed?
Scotland’s Largest Offshore Wind Farm Is Now Operational
The title of this post, is the same as that of this press release from Seagreen Wind Energy.
These three bullet points, act as sub-headings.
-
First Minister Humza Yousaf says Seagreen milestone takes Scotland a step closer to net zero
-
UK’s newest offshore wind farm is generating enough renewable energy to power almost 1.6m homes annually
-
Seagreen is now Scotland’s largest and the world’s deepest fixed-bottom offshore wind farm
These two paragraphs outline the current state of the project.
SSE Renewables, part of SSE plc, and its partner TotalEnergies have announced all 114 Vestas V164-10.0 MW turbines at the 1.1GW Seagreen Offshore Wind Farm off the coast of Scotland are now fully operational and are generating clean, renewable energy to Britain’s power grid.
Situated 27km off the Angus coast in the North Sea’s Firth of Forth, Seagreen is now Scotland’s largest wind farm as well as the world’s deepest fixed-bottom offshore wind farm, with its deepest foundation installed at a record 58.7 metres below sea level^. Seagreen is operated from a dedicated onshore Operations and Maintenance Base at Montrose Port.
Note.
- The capacity of the wind farm is 1,075MW.
- First power was in August 2022.
- It looks like that the original completion date was in 2024, but it was moved forward to October 2023, which has been met.
It seems that the project management was planned well.
ABP To Explore Opportunities For Offshore Wind Port In Scotland
The title of this post, is the same as that of this article on offshoreWIND.biz.
This is the sub-heading.
Associated British Ports (ABP) has signed an agreement to investigate an area for the development of infrastructure to support offshore wind manufacturing, assembly, and marshalling and green energy on the Cromarty Firth in Scotland, within the Inverness Cromarty Firth Green Freeport.
This first paragraph gives a bit more information including the possible location.
The area, located within the proposed Nigg and Pitcalzean area of the Green Freeport, could support both fixed-bottom and floating offshore wind projects and play a major role in the development of current and future ScotWind leasing rounds, said ABP.
This Google Map shows the location of the Port of Nigg.
Note.
- The Moray Firth with Inverness at its Southern end is the large body of water in the centre of the Southern half of the map.
- The Port of Nigg is on Cromarty Firth and marked by a red arrow.
- Nigg and Pitcalzean are to the North of the port.
This second Google Map shows an enlarged view of the port.
Note.
- Pitcalzean House is in the North-East corner of the map.
- The Port of Nigg is in the centre of the map.
- The water to the West and South of the port is Cromarty Firth.
- The yellow structures in the port are fixed-bottom foundations for wind farms.
Inverness & Cromarty Firth Green Freeport has a web site.
A Quote From Henrik Pedersen
Henrik Pedersen is CEO of ABP and the article quotes him as saying this.
We’re excited to explore the potential of Nigg, applying our experience across the UK, including at our Ports of Grimsby, Hull, Lowestoft and Barrow which already host significant offshore wind activity and at Port Talbot, where we are developing a Floating Offshore Wind port project. We look forward to working with key local partners, the community, and public sector stakeholders.
The article also has this final paragraph.
The Floating Offshore Wind Taskforce’s recently published “Industry Roadmap 2040”, estimated that planed floating offshore wind projects in Scottish waters alone will require three to five integration ports.
There is certainly going to be a significant number of ports, that will be supporting offshore wind activity.
UK’s Nuclear Fusion Site Ends Experiments After 40 Years
The title of this post, is the same as that of this article on the BBC.
I have followed fusion research since ZETA at Harwell was started up in 1957.
These first few paragraphs from the BBC article, sum up up fusion research.
For the next four decades, the European project pursued nuclear fusion and the promise of near-limitless clean energy.
But on Saturday the world’s most successful reactor will end its last test.
Nuclear fusion was “discovered” in the 1920s and the subsequent years of research focused on developing fusion for nuclear weapons.
In 1958, when the United States’ war research on fusion was declassified, it sent Russia, UK, Europe, Japan and the US on a race to develop fusion reactions for energy provision.
Fusion is considered the holy grail of energy production as it releases a lot of energy without any greenhouse gas emissions.
It is the process that powers the Sun and other stars. It works by taking pairs of light atoms and forcing them together – the opposite of nuclear fission, where heavy atoms are split apart.
Four decades of research, loads of money and some of the best brains in the world have produced very little, except about knowing what doesn’t work.
It doesn’t seem that anybody is getting any value from fusion research any more.
It’s almost as if, we’ve hit a brick wall and we can’t go any farther.
It must be terribly demoralising for everybody involved.
Would the scientists and engineers be better employed on other research?
I wouldn’t totally abandon fusion research, but put it more on a watching brief, so that if anything positive happens elsewhere, the UK might be able to take advantage.
Could we even do what we have recently done with High Speed Two and scrap it, before using the money on other energy projects?
My priorities would be.
Floating Wind Research
Because we are surrounded by sea, offshore floating wind is likely to be our major energy source by the end of the decade.
Energy Network Control Research
Our energy network will be getting more complex and we need better algorithms to control it.
Storage Research
We need lots of energy storage, that is affordable to install, that can be placed everywhere in the UK.
Project Management Research
I believe that some of the energy ideas will need advanced project management techniques, that may or may not have been invented yet.
Small Modular Reactor Research
SMRs are one way to go, but is the backup research in place?
Tidal Research
Places in the UK have high tidal ranges and we should exploit them.
The Government And Research
The government is funding a lot of energy research.
Much of the funding is going for short term projects, which is good in that we have an urgent need for improvement in our energy performance, but is bad in that it ignores the future.
Diamond 2
The Diamond Light Source has been an unqualified success. I am convinced that we need Diamond 2 in the North, which I wrote about in Blackpool Needs A Diamond.
Arup and ILF Join Forces To Enhance Pumped Storage Projects In The UK
The title of this post, is the same as that of this of article on Water Power And Dam Construction.
These are the first two paragraphs.
Global sustainable development consultancy Arup and ILF Consulting Engineers have recently signed a Memorandum of Understanding (MOU) aimed at strengthening pumped storage projects in the UK. These projects include Coire Glas, Glenmuckloch, and up to 13 additional schemes in the pipeline.
This partnership marks a significant development in the hydropower sector in the UK, bringing both capacity and valuable experience to support the country’s net-zero energy transition.
Fifteen schemes could be a lot of energy storage.
These are a few useful web sites with information to back up the article.
As most of the work appears to be in Scotland, this would appear to be a second large installment of Power From The Glens. Perhaps it should be named Storage In The Glens.
National Grid’s London Power Tunnels Breakthrough Completes £1 Billion Project’s Tunnelling Activity
The title of this post, is the same as that of this press release from National Grid.
These bullet points sum up the press release.
- Landmark moment for London Power Tunnels project as 140-tonne boring machine emerges at Eltham site following final subterranean journey
- Breakthrough marks the completion of 32.5km of tunnelling at depths of up to 60m under seven South London boroughs
- Due for completion in 2026, the project is rewiring the capital’s electricity network to boost resilience and future-proof supplies as demand grows
This is the seventh major tunnel in London in recent years to be completed.
- Elstree and St. John’s Wood Cable Tunnel – Electricity – 12 miles – 2005
- Lower Lea Valley Cable Tunnels – Electricity – 3.7 miles – 2008
- Lee Tunnel – Sewage – 4.3 miles – 2016
- New Cross and Finsbury Market Cable Tunnel – Electricity – 3.5 miles – 2017
- Northern Line Extension To Battersea – Rail – 2 miles – 2021
- Elizabeth Line – Rail – 26 miles – 2022
- Silvertown Tunnel – Road – 1 mile – Under Construction
- Thames Tideway Tunnel – Sewage – 16 miles – Under Construction
- Euston Tunnel – Rail – 4.5 miles – Under Construction
Note.
- It is likely that there will be CrossRail 2 and an extension to the Bakerloo Line.
- It certainly seems to have been a prudent decision to create Tunneling and Underground Construction Academy or TUCA to train more tunnellers, before the Elizabeth Line was built.
But I don’t believe that will be all the large tunnels that will be built in the capital.
World’s Largest Offshore Wind Farm Produces Power For The First Time
The title of this post, is the same as that of this press release from SSE.
These bullet points sum up the press release.
- UK Prime Minister Rishi Sunak hails Dogger Bank’s role in bolstering energy security, creating jobs, lowering costs, and achieving Net Zero
- First power achieved at UK’s Dogger Bank as the first of 277 turbines installed 130km from UK coast
- Dogger Bank is now connected via HVDC technology to Britain’s national grid and providing renewable power to homes and businesses
- Each rotation of the first turbine’s 107m long Haliade-X blades can produce enough clean energy to power an average home for two days
- When complete Dogger Bank will deliver clean energy to six million homes annually
I will repeat a highlight of important paragraphs from the press release.
The Size Of The Dogger Bank Wind Farms
When fully complete, Dogger Bank’s world-record-beating 3.6GW capacity will comprise 277 giant offshore turbines capable of producing enough clean energy to power the equivalent of six million homes annually and deliver yearly CO2 savings equivalent to removing 1.5 million cars from the road.
Note.
- The first 1.2 GW section is scheduled for completion in the next few months.
- Two more sections of the Dogger Bank wind farm will eventually raise the capacity to 6 GW.
This cluster of wind farms certainly shows what can be achieved with British offshore wind power.
Innovative HVDC Technology
Dogger Bank also marks the first use of HVDC transmission technology to connect a British wind farm to National Grid’s UK energy network. This includes the installation of the world’s first unmanned offshore HVDC substation platform at the site, as well as first use of Hitachi Energy’s HVDC Light® transmission system which was successfully executed in record time of 38 months with the highest safety and quality standards.
Note.
- HVDC technology appears to be a more efficient way of transmitting energy under the sea and is now generally used for interconnectors.
- This page on the Hitachi Energy web site is entitled Dogger Bank HVDC Connection and gives a good description of the connection and its advantages.
The HVDC Technology and its installation looks like a real achievement, that can be applied to lots of other offshore wind farms.
XLCC seem to be doing the right thing in building an HVDC cable factory in Scotland. Check out their web site.
Offshore Wind Supply Chain Could Boost UK Economy By GBP 92 Billion Before 2040
The title of this post, is the same as that of this article on offshoreWIND.biz.
This is the sub-heading.
Growing the UK’s supply chain for offshore wind represents a GBP 92 billion (approximately EUR 106 billion) opportunity to boost the UK’s economy by 2040, according to a report by the Offshore Wind Industry Council (OWIC) and the Offshore Wind Growth Partnership (OWGP).
These are the first two paragraphs.
The report, titled “Supply Chain Capability Analysis”, outlines key measures that industry and government can take to strengthen the UK’s offshore wind supply chain, according to OWIC.
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.
It should be remembered that George Soros is only worth around $6.7 billion according to his Wikipedia entry, although he has donated $32 billion to charity.
The Crown Estate Refines Plans For Celtic Sea Floating Wind
The title of this post, is the same as that of this press release from Crown Estate.
This is the first part of the press release.
The Crown Estate has set out further details on its plans for Offshore Wind Leasing Round 5, which aims to establish new floating offshore wind technology off the coast of Wales and South West England. The update includes details on the final planned locations for the new windfarms, as well as further information on a multi-million-pound programme of marine surveys.
Round 5 is expected to be the first phase of development in the Celtic Sea, with The Crown Estate working to catalyse and accelerate the UK’s energy transition, and to de-risk developments to speed up their deployment. This includes investing in an upfront Habitats Regulation Assessment, an extensive programme of marine surveys and working with the Electricity System Operator on a coordinated approach to grid design.
This latest update follows a period of engagement with developers and wider stakeholders on proposals set out in July over how to make best use of available space in the Celtic Sea. As a result of the feedback received, The Crown Estate has confirmed that:
- Three Project Development Areas (PDAs) of roughly equal size are expected to be made available to bidders, as opposed to the previously proposed four PDAs of varying sizes
- No bidder will be able to secure an Agreement for Lease for more than one PDA
- As a result of bringing forward three equal-sized PDAs – each with a potential capacity of up to 1.5GW – the overall capacity available through Round 5 has increased from a possible 4GW to up to 4.5GW, enough to power more than 4 million homes
Note.
- Another 4.5 GW of offshore wind should hit the queue.
- It sounds like they have been listening to developers.
To find out more of the potential of the Celtic Sea, I recommend this article on the Engineer, which is entitled Unlocking The Renewables Potential Of The Celtic Sea.
I’ll go along with what this article says and accept that 50 GW of wind capacity could be installed in the Celtic Sea.
DuPont Introduces First Ion Exchange Resin For Green Hydrogen Production
The title of this post, is the same as that of this press release from DuPont.
This is the sub-heading.
Newly designed ion exchange resin with extended service time designed to enhance electrolyzer operation
This is the first paragraph.
DuPont today announced the launch of its first product dedicated to the production of green hydrogen – the DuPont™ AmberLite™ P2X110 Ion Exchange Resin. To support the production of hydrogen from water, this newly available ion exchange resin is designed for the unique chemistry of electrolyzer
Put simply, it appears, that DuPont’s new product will improve the overall efficiency of the electrolysis of water to produce hydrogen.
The Anonymous Widower 