The Case For Pumped Hydro Storage
The Coire Glas Project
Note that Coire Glas is a pumped storage hydroelectric scheme being developed by SSE Renewables.
- It is rated at 1.5 GW.
- It can store 30 GWh of electricity.
- It is being built in the Highlands of Scotland above Loch Lochy.
- The estimated construction time will be five to six years.
- It should be operational for more than 50 years.
- There is more about the project on this page on the Coire Glas web site.
Exploratory works have started.
The Case For Pumped Hydro Storage
The title of this post, as the same as that of this page on the Coire Glas web site.
This is the sub-heading.
A study by independent researchers from Imperial College London found that investing in 4.5GW of pumped hydro storage, with 90GWh of storage could save up to £690m per year in energy system costs by 2050, as the UK transitions to a net-zero carbon emission system.
And this is the first paragraph.
The report focused on the benefits of new long-duration pumped hydro storage in Scotland, as the current most established long-duration energy storage technology. The benefit of long duration storage compared to short duration batteries is being able to continuously charge up the storage with excess renewables and also discharge power to the grid for several hours or days when wind and solar output is low.
So Coire Glas will provide 1.5GW/30GW, so where will we get the other 3 GW/60GW?
Loch Earba Pumped Hydro
In Gilkes Reveals 900MW Scottish Pumped Storage Plan, I introduced Loch Earba Pumped Hydro.
- It is rated at 900 MW
- It can store 33 GWh of electricity.
- It is being built in the Highlands of Scotland to the East of Fort William.
- The estimated construction time will be three to four years.
- It should be operational for more than 50 years.
- There is more about the project on the Earba Storage web site.
It would appear we could be edging towards the Imperial College target in lumps of about 1GW/30 GWh.
Other Schemes In Scotland
These are other proposed or planned schemes in Scotland.
Balliemeanoch Pumped Hydro
Balliemeanoch Pumped Hydro now has a web site.
The proposed Balliemeanoch pumped hydro scheme will have these characteristics.
- Output of the power station will be 1.5 GW
- Available storage could be 45 GWh.
This medium-sized station has a lot of storage.
Corrievarkie Pumped Hydro
Corrievarkie Pumped Hydro now has a web site.
The proposed Corrievarkie pumped hydro scheme will have these characteristics.
- Output of the power station will be 600 MW
- Available storage could be 14.5 GWh.
This medium-sized station has a moderate amount of storage.
Loch Kemp Pumped Hydro
I wrote about Loch Kemp Pumped Hydro in Loch Kemp Pumped Hydro, where I said this.
The proposed Loch Kemp pumped hydro scheme will have these characteristics.
- Loch Kemp will be the upper reservoir.
- Loch Ness will be the lower reservoir.
- The power station will be on the banks of Loch Ness.
- The power station will be designed to fit into the environment.
- Eight dams will be built to enlarge Loch Kemp.
- Trees will be planted.
- Output of the power station will be 300 MW
- Available storage could be 9 GWh.
The medium-sized station will have almost as much storage capacity as Electric Mountain, but that power station has an output of 1.8 GW.
Red John Pumped Hydro
I wrote about Red John Pumped Hydro in Red John Pumped Storage Hydro Project, where I said this.
I have also found a web site for the project, which is part of the ILI Group web site.
- 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.
Not a large scheme, but every little helps.
Proposed Pumped Hydro In Scotland
I have listed these schemes.
- Balliemeanoch – 1.5GW/45 GWh
- Coire Glas – 1.5 GW/30 GWh
- Corrievarkie – 600 MW/14.5 GWh
- Loch Earba – 900 MW/33 GWh
- Loch Kemp – 300 MW/9 GWh
- Loch Na Cathrach/Red John – 450 MW/2.8 GWh
Note.
- The scheme’s name is linked to their web site.
- The two figures are output and storage capacity.
There is a total output of 5.25 GW and a total storage capacity of 134.3 GWh.
Conclusion
If all these schemes are built, Imperial’s targets of an output of 4.5 GW and a storage capacity of 90 GWh will be comfortably exceeded.
Gilkes Reveals 900MW Scottish Pumped Storage Plan
The title of this post, is the same as that of this article on renews.biz.
This is the sub-heading.
Earba project would be ‘largest in the UK’ in terms of energy stored
And this is the introductory paragraph.
Gilkes Energy has unveiled scoping plans for its 900MW Earba Pumped Storage Hydro Project in Scotland.
These are a few more details.
- It will have a capacity of 33 GWh.
- Loch a’ Bhealaich Leamhain is proposed to be the upper reservoir.
- Lochan na h-Earba is proposed to be the lower reservoir.
- There will be a three kilometre tunnel between the reservoirs.
- The 900 MW power station will be on the shore of Loch Earba.
- Construction is expected to take between 3 and 4 years.
This Google Map shows the location of the site.
And this Google Map shows the site.
Note.
- Lochan na h-Earba, which will be the lower reservoir is clearly marked, in the North-West corner of the map.
- Loch a’ Bhealaich Leamhain, which will be the upper reservoir is in the South-East corner of the map.
- Much of Loch a’ Bhealaich Leamhain appears to be frozen, with only a small triangular area of water visible.
- There doesn’t seem to be too many roads.
- There is a detailed map on the Earba Storage web site.
This looks like it could be extreme construction, at it’s most extreme.
Conclusion
With a power output of 900 MW and a storage capacity of 33 GWh, this pumped storage hydroelectric power station will have the largest storage capacity of any energy storage in the UK.
Rheenergise & University Partners Secure £1M Grant From UK Government
The title of this post, is the same as that of this press release from Reenergise.
This is the sub-heading.
The Department for Energy Security & Net Zero funded research project will identify and test minerals and discarded wastes for use in RheEnergise’s grid scale hydro energy storage system.
And these are the first three paragraphs.
In partnership with the University of Greenwich and the University of Exeter, RheEnergise, the UK company that is developing a new and advanced form of pumped hydro-energy storage, has secured a grant of £1 million funded through the Net Zero Innovation Portfolio (NZIP) as part of the UK Government’s Energy Entrepreneurs Fund. The government grant will fund work to identify and test waste materials that could be used in the high-density fluid (HDF) that is integral to RheEnergise’s grid-scale High-Density Hydro® energy storage system. The HDF is an environmentally benign alternative to water.
RheEnergise’s long duration storage system is low-cost and energy efficient. The fluid used in the system is 2½ times denser than water (similar in viscosity to cream) and is therefore able to provide 2½ times the power and 2½ times the energy when compared to conventional low-density hydro-power systems that rely on water and operate in the Scottish Highlands, Wales and across Europe. It means that RheEnergise can deploy its long duration energy storage system beneath the surface of hills rather than mountains, so opening up massive commercial opportunities in the UK, Europe and further afield.
The research project, funded by the Department for Energy Security & Net Zero’s Energy Entrepreneurs Fund, wants to identify suitable minerals and waste streams which can be recycled into the high-density fluid which can be locally sourced and are lower-cost, rather than having to rely on minerals imported from overseas.
I feel the concept of High-Density Hydro is excellent and will work.
If this research leads to lower costs, that can only help the development and deployment of High-Density Hydro.
Wind Power For 1.2m Homes Is Wasted Because Of Lack Of Storage
The title of this post, is the same as that of this article on the Daily Telegraph.
These two paragraphs outline what happened.
Enough wind power to supply 1.2m homes a day was wasted over winter because there is no capacity to store extra energy generated on gusty days, according to new research.
National Grid’s electricity system operator asked wind turbines which were expected to generate about 1.35 terawatt-hours of electricity between October and January to switch off instead because they were not needed to meet demand at the time, according to the consultancy Stonehaven.
The problem has been flagged up by Rupert Pearce of Highview Power, who in my view could have a solution with their CRYOBatteries.
Pearce is quoted as saying this.
Renewable energy storage is essential to powering a cleaner, cheaper, always-on Britain.
By capturing and storing excess renewable energy, which is now the UK’s cheapest, most secure and most abundant form of energy, we can power Britain’s homes and businesses with renewable green energy, taking millions of tonnes of carbon out of the atmosphere and ending a culture of reliance on expensive foreign imports.
He’s too bloody right! And my experience of mathematical modelling large vessels at ICI in the 1970s, says that Highview Power have one of the sensible solutions to large scale energy storage.
US Utility Xcel To Put Form Energy’s 100-hour Iron-Air Battery At Retiring Coal Power Plant Sites
The title of this post is the same as that of this article on Energy Storage News.
This is the first two paragraphs.
‘Multi-day’ battery storage startup Form Energy’s proprietary iron-air battery is set to be deployed at the sites of two US coal power plants due for retirement.
Form Energy said yesterday that definitive agreements have been signed with Minnesota-headquartered utility company Xcel Energy for the two projects, one in Minnesota and the other in Colorado.
On their Technology page, they say this about their battery storage technology.
Our first commercial product is an iron-air battery capable of storing electricity for 100 hours at system costs competitive with legacy power plants. Made from iron, one of the most abundant minerals on Earth, this front-of-the-meter battery will enable a cost-effective, renewable energy grid year-round.
They also seem to be very much into grid-modelling technology. As I’ve build mathematical models for sixty years, I like that!
It does seem Form Energy is on its way.
First Offtake Deal Signed For 500MW/4,000MWh Advanced Compressed Air Energy Storage Project In California
The title of this post, is the same as that of this article on Energy Storage News.
These three paragraphs explain the deal.
Advanced compressed air energy storage (A-CAES) company Hydrostor has signed a power purchase agreement (PPA) for one of its flagship large-scale projects in California.
Central Coast Community Energy, one of California’s several dozen Community Choice Aggregator (CCA) non-profit energy suppliers, has signed a 200MW/1,600MWh energy storage PPA with a 25-year term with Toronto-headquartered Hydrostor for its Willow Rock Energy Storage Center.
That’s just under half of the output and capacity of the planned 8-hour, long-duration energy storage (LDES) facility, which is designed to be 500MW/4,000MWh. This is its first offtake deal, but the company is in discussion for others to take the rest of the plant’s available resource.
The article says that Hydrostor aim to have the plant online by 2028.
This segment describes their current projects.
It is currently working on large-scale projects with around 9GWh storage capacity in total across two sites in California as well as another in Australia.
Together with Willow Rock in Kern County, Hydrostor is developing the 400MW/3,200MWh Pechos Energy Storage Center in San Luis Obispo County, California, and the 200MW/1,500MWh Silver City Energy Storage Center in Broken Hill, New South Wales, Australia.
On its UK Projects page, Highview talks about a 200MW/2.5GWh facility in Yorkshire, which puts the two companies in similar markets, with Hydrostor appearing to have slightly larger systems under development.
Conclusion
It will be interesting to see how this technology progresses and which company does best in what is a very large energy storage market.
Wind Generation Sets New Record In UK Surpassing 21 GW
The eye-catching title of this post, is the same as that of this article on Renewables Now.
I regard anything over 20 GW as very good, as the UK’s average daily consumption is typically around 23 GW, so surely we can find a couple of gigawatts of biomass, gas, hydro or nuclear.
The Renewables Now article says this about UK electricity generation.
According to National Grid ESO, on Monday, January 9, wind accounted for 50.2% of British electricity, nuclear for 15.9%, gas for 13.1%, imports for 10%, biomass for 4.8%, hydro for 3.8%, solar for 1.3% and coal for 1.1%. Tuesday’s wind record may undergo slight adjustments in expectation of all data for yesterday.
I shall be following these figures.
- Especially, as Wikipedia says another 3 GW will be installed this year.
But it does seem that we’re getting there with renewable electricity.
A Thought On Energy Storage
I also think that if we are generating large amounts of electricity at times, which are more than we need, then we had better crack on and build lots of energy storage.
If we don’t need the energy and Europe or Ireland doesn’t want it, then we must store it, so that if the wind isn’t blowing we can recover it for a useful purpose, even if it is only selling it to the Germans to make hydrogen, which is used to replenish their stores.
Giant Solar Farm Project In Doubt After Disagreement Between Mike Cannon-Brookes And Andrew Forrest
The title of this post, is the same as that of this article on the Guardian.
This is the sub-heading.
Australian billionaires had backed $30bn Sun Cable venture designed to help power Darwin, Indonesia and Singapore but the company has gone into voluntary administration.
It does look like the administrators will be able to continue the project and look for more funding.
Qatar must be in the frame, as this link will probably cut some of their gas sales.
I wrote about this monster project in Sun Cable’s Australia-Asia PowerLink.
I wonder if this administration will have any effects on the prospects of the other giant intercontinental interconnectors?
- EuroAfrica Interconnector – See The EuroAfrica Interconnector
- EuroAsia Interconnector – See The EuroAsia Interconnector
- Morroco-UK Power Project – See Moroccan Solar-Plus-Wind To Be Linked To GB In ‘Ground-Breaking’ Xlinks Project
- TransPacific Interconnector – See Chile Wants To Export Solar Energy To Asia Via 15,000km Submarine Cable
The economics will decide. But I do think, the last one could be a bit ambitious.
How Liquid Air Could Solve The UK’s Energy Conundrum
The title of this post, is the same as that of this article on The Telegraph.
The article is mainly an article that described the technology and it discloses a few facts.
- The Carrington plant should be delivered in 2024.
- Carrington will be a 30 MW/30 MWh system.
- Efficiency is around 50 %, but there are possibilities to raise it to 70 %.
- Australia is mentioned as a market.
- It is likely to be paired with supercapacitors or a flywheel to have a quick start.
- It seems to me, that turning an idea into a practical system is taking a lot of work and money, and a bit of a rethink.
But hopefully, the system will eventually be developed, as it does promise to be an energy storage system, that doesn’t make high demands on the environment in terms of expensive metals and rare earths.
Is Something Happening At Highview Power?
It seems to be impossible to connect to the Highview Power web site.
I get the message, that my security is not private.
There is also no news of the company in the last month.
The Anonymous Widower 