UK Energy Grid Needs £60bn Upgrade To Hit Green Target, Plan Says
The title of this post, is the same as that of this article on the BBC.
This is the sub-heading.
The UK’s electricity network needs almost a further £60bn of upgrades to hit government decarbonisation targets by 2035, according to a new plan.
These five paragraphs explain the plan.
About 4,000 miles of undersea cables and 1,000 miles of onshore power lines are needed, said the National Grid’s Electricity Systems Operator (ESO).
The investment would add between £20 to £30 a year to customer bills, it said.
The government said the ESO’s plans were preliminary and yet to pass a “robust planning process”.
The plans were written up by the ESO, the organisation which runs the electricity network and would run the updated system it is calling for too. It is currently owned by National Grid but will transfer into government ownership later this year.
Its latest £58bn estimate is for work needed between 2030 and 2035 and comes on top of a previous £54bn estimate for work taking place between now and 2030.
These are my thoughts.
The Amount Of Undersea Cable
Edinburgh and London are roughly 400 miles apart as the train runs, so it looks like there could be the equivalent of ten underwater cables between the North of Scotland and England.
In Contracts Signed For Eastern Green Link 2 Cable And Converter Stations, I talked about the proposed 2 GW link between Peterhead in Scotland and Drax in England, which will be a double cable. So there’s the first two of these long cables.
It looks to me, that National Grid are proposing to use underwater cables wherever they can, so they avoid large expensive planning rows stirred up by Nimbies.
Monitoring The Undersea Cables
Last week Ofgem gave National Grid a £400,000 grant to develop new innovative technologies, which I wrote about in £400k For National Grid Innovation Projects As Part Of Ofgem Fund To Help Shape Britain’s Net Zero Transition.
One of the project is called HIRE – Hybrid-Network Improvement & Reliability Enhancement and will be used to check all these cables are performing as they should.
My electrical engineering experience tells me, that there must be some cunning way, that will detect that something is happening to the cable. The involvement of a technology company called Monitra in the project is a bit of a giveaway.
How Much Will It Cost Me?
Currently, UK consumers pay about £30 per year to have electricity delivered, so this will rise to between £50 and £60 per year.
That is just over a pound a week. I would pay about the same for a resident’s parking permit outside my house for an electric car and probably three times more for a petrol or diesel car.
Do We Have Enough Cable?
Two undersea cable factories are under development in Scotland and I suspect the 4,000 miles of undersea cables will be delivered on schedule and covered in saltires.
What About T-Pylons?
The latest onshore electricity transmission line between Hinckley Point C and Bristol, doesn’t use traditional pylons.
It uses T-pylons like these to connect the 3.26 GW nuclear power station.
Note that they are shorter, designed to be less intrusive, have a smaller footprint and are made from only ten parts.
I suspect they will cost less to install and maintain.
There is more on T-pylons in National Grid Energise World’s First T-Pylons.
I wouldn’t be surprised that some of the oldest traditional pylons will be replaced by T-pylons.
I am surprised that T-pylons are not mentioned in the BBC article.
I like T-pylons. How do you feel about them?
Eastern Green Link 2
This press release from National Grid, describes Eastern Green Link 2 like this.
Eastern Green Link 2 (EGL2) is a 525kV, 2GW high voltage direct current (HVDC) subsea transmission cable from Peterhead in Scotland to Drax in England delivered as a joint venture by National Grid and SSEN Transmission.
This map from National Grid, shows the route of the Eastern Green Link 2.
The Northern landfall is at Sandford Bay and the Southern landfall is at Wilsthorpe Beach.
This Google Map shows Sandford Bay and Peterhead power station.
Note.
- Sandford Bay occupies the North-East corner of the map.
- The red arrow indicates the main 400kV sub-station at Peterhead.
- The 2177 MW gas-fired Peterhead power station is to the East of the sub-station marked as SSE.
This second Google Map shows the onshore route of the cable from Wilsthorpe to Drax.
Note.
- Flamborough Head is in the North-East corner of the map.
- Wilsthorpe Beach is at Bridlington a couple of miles South of Flamborough Head.
- The red arrow indicates Drax Power station.
- An onshore underground cable will be installed from landfall in Wilsthorpe to a new onshore converter station built in Drax.
The EGL2 HVDC cable connection from Scotland to England consists of 436km of submarine cable and 69km of onshore cable.
Both converter stations will be on existing power station sites and the major onshore works will be the underground cable between Wilsthorpe and Drax.
Where Does Drax Go From Here?
Currently, Drax power station is a 2595 MW biomass-fired power station.
There are now other large power sources that could replace some or all of the output of Drax power station.
- 2GW of Scottish wind power coming to Drax on Eastern Green Link 2.
- 6 GW of offshore wind is being developed at the Hornsea wind farms.
- 8 GW of offshore wind is being developed at the Dogger Bank wind farms.
- 2.5 GW from the three gas-fired power stations at Keadby, two of which are likely to be fitted with carbon capture.
- 1.8 GW from the proposed hydrogen-fired Keadby Hydrogen power station.
Given the bad feelings many have about Drax burning biomass, with 20.3 GW of electricity, you might think that shutting down Drax would be a simple solution.
But, according to Drax’s Wikipedia entry, it has a unique property.
Despite this intent for baseload operation, it was designed with a reasonable ability for load-following, being able to ramp up or down by 5% of full power per minute within the range of 50–100% of full power.
So Drax could be very useful in balancing the grid, by ramping up and down to fill the gap between production and need.
In addition, there is good biomass. This is from the Wikipedia entry.
A 100,000 tonne pa capacity straw pelletization facility was constructed at Capitol Park, Goole in 2008.
Drax are also promoting BECCS or Bioenergy carbon-capture and storage.
There is a Wikipedia entry for Bioenergy With Carbon Capture And Storage, of which this is the first couple of sentences.
Bioenergy with carbon capture and storage (BECCS) is the process of extracting bioenergy from biomass and capturing and storing the carbon, thereby removing it from the atmosphere. BECCS can theoretically be a “negative emissions technology” (NET).
I do feel that carbon capture and storage is a bit like sweeping the dust under the carpet, when you sweep the floor around it.
But carbon capture and use could be another matter.
This Google Map shows the Drax site.
Note how it is surrounded by agricultural land.
Could the power station be the source of pure carbon dioxide to be fed in greenhouses to flowers, herbs, salad vegetables, tomatoes and other plants?
I suspect there’s productive life left in Drax power station yet!
LionLink
LionLink, that is being developed by National Grid is a new type of interconnector, called a multi-purpose interconnector, that will connect Suffolk and The Netherlands via any convenient wind farms on the way. This means that the electricity generated can go where it is needed most.
I wrote about LionLink in World’s Largest-Of-Its-Kind Power Line To Deliver Clean Power To 1.8m UK Homes And Boost Energy Security.
Other Multi-Purpose Interconnectors
I can see other multi-purpose interconnectors like LionLink being built around the UK.
- There could be one across the Dogger Bank to link out 8 GW of Dogger Bank wind farms with those of the Dutch, Danes and Germans on their section of the bank.
- NorthConnect could be built between Scotland and Norway via some of the wind farms being developed to the North-East of Scotland.
- Could wind farms to the North of Ireland use a multi-purpose interconnector between Scotland and Northern Ireland.
- I can also see one or possibly two, being built across the Celtic Sea to link Devon, South Wales and Southern Ireland via the wind farms being developed in the area.
- Will we also see a Channel multi-purpose interconnector to transfer electricity along the South Coast of England?
Some of these multi-purpose interconnectors could be key to creating a revenue stream, by exporting electricity, to countries in Europe, that have a pressing need for it.
Conclusion
National Grid’s excellent plan will lead to the end of the practice of shutting down wind turbines. The spare electricity will be exported to Europe, which will surely create a good cash-flow for the UK. This in turn will encourage developers to create more wind farms in the seas around the UK’s coasts.
£400k For National Grid Innovation Projects As Part Of Ofgem Fund To Help Shape Britain’s Net Zero Transition
The title of this post, is the same as that, of this press release from National Grid.
These three bullet points, act as sub-headings.
- Three transmission and distribution network innovation projects receive green light
- Funding kickstarts projects for the discovery phase of Ofgem innovation scheme
- 14 National Grid projects worth £4m have won innovation funding since scheme began
These are the three projects.
HIRE – Hybrid-Network Improvement & Reliability Enhancement
This is National Grid’s description of the £135,000 project.
Researching new state-of-the-art condition monitoring to improve the commissioning and operation of offshore cables. This new, robust system will mitigate the risk of failure, overcome the limitations of existing techniques (e.g. cable length) and aid network operators in decision making for a more flexible grid. PROJECT PARTNERS: University of Manchester, DNV, Monitra, SSEN Transmission.
With all the offshore cables, that have been laid around the UK, Europe and the world in recent years, I am surprised that such a system has not been developed before.
But I suspect, that the project partners know that if they can develop a superior cable monitoring system, then it could be a nice little earner in addition to its job with UK offshore cables.
According to their web site, Monitra seem to be the monitoring experts.
This is the mission statement on their home page.
Our aim is to maximise the uptime of every high voltage asset worldwide.
I like this company’s attitude and it should make the world a better place.
I certainly think that the £135,000 will be well spent.
REACH – Rural Energy And Community Heat
This is National Grid’s description of the £120,000 project.
Working with rural community energy groups to develop a modular rural energy centre that will help communities make cost effective decarbonisation plans. The solution will offer shared low carbon heating, rapid EV charging, and renewable generation in areas not served by commercial markets, and where there is limited electricity network capacity.
Rolls-Royce mtu seem to have a system, that might go some way to satisfy National Grid’s ambitions, that I wrote about in Would You Buy A Battery Energy Storage System From Rolls-Royce?.
Road to Power
This is National Grid’s description of the £140,000 project.
Developing specific tools to forecast future energy consumption and infrastructural impact of works, to support the street and road works sector as it decarbonises 7.8TWh of energy demand across 700,000 major works in the sector’s pivotal transition to net zero by 2030.
This sounds like an excellent idea. Especially, if it makes street and road works quieter and less polluting.
Conclusion
I like these three projects and have already added them to my list of Google Alerts.
Contracts Signed For Eastern Green Link 2 Cable And Converter Stations
The title of this post, is the same as that of this press release from National Grid.
These four bullet points, act as sub-headings.
- Eastern Green Link 2 (EGL2) is a 525kV, 2GW high voltage direct current (HVDC) subsea transmission cable from Peterhead in Scotland to Drax in England delivered as a joint venture by National Grid and SSEN Transmission
- The joint venture has signed a contract with the Prysmian Group to supply around 1,000km of cable for the project and a contract with Hitachi Energy and BAM for the supply of converter stations at either end of the subsea cable
- Contract signing is a significant milestone for the project as it progresses towards the delivery phase
- EGL2 will be the longest HVDC cable in the UK and the UK’s single largest electricity transmission project ever, providing enough electricity to power two million UK homes
This paragraph outlines the project.
EGL2, a joint venture between SSEN Transmission and National Grid Electricity Transmission (NGET), has reached another milestone in the development of a new subsea electricity superhighway after sealing contracts this week with specialist HVDC cable supplier, Prysmian, and with Hitachi Energy and BAM for the supply of converter stations at either end of the project.
These four paragraphs add more detail.
EGL2 will see the creation of a 525kV, 2GW HVDC subsea transmission cable from Peterhead in Scotland to Drax in England. The longest HVDC cable in the UK and the UK’s single largest electricity transmission project ever, it will provide enough electricity to power two million UK homes.
Prysmian has confirmed it has the capability to deliver the project with its manufacturing facilities for the production of the HVDC cable and its cable laying vessels for the installation in the timescale required for EGL2 to meet its targeted energisation date in 2029, supporting the timely delivery of this project and mitigating risks associated with global constraints in the HVDC supply chain.
Hitachi Energy is partnering with BAM to provide the engineering works and technology for the HVDC converter stations which form the terminals for the HVDC cable and convert direct current to the alternating current used in the onshore transmission network. This latest milestone is another significant step as the project moves towards delivery and, following final approval from Ofgem, work is expected to commence later this year, with a targeted operational date of 2029.
The subsea HVDC cable system is approximately 436km in length with new converter stations at either end to connect it into the existing transmission network infrastructure. HVDC technology provides the most efficient and reliable means of transmitting large amounts of power over long distances subsea.
Note.
- EGL2 can handle 2 GW.
- There is a targeted operational date of 2029.
- Eastern Green Link 2 now has its own web site.
- Most of these links now seem to be HVDC.
A map in the press release, shows the undersea route may be shorter.
It also appears to me, that moving electricity around the UK under the sea, is possibly the most environmentally-friendly and least intrusive way to do it.
We already have four HVDC interconnectors.
There will be many more,
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.
XLCC Obtains Planning Approval To Build UK’s First HVDC Cable Factory In North Ayrshire
The title of this post, is the same as that of this press release from XLCC.
These are the first three paragraphs.
On 29th June 2022, the North Ayrshire Council Planning Committee resolved to grant planning permission for XLCC’s HVDC subsea cable manufacturing operations in Hunterston, Scotland.
Breaking ground in the coming months, the brownfield site will create a new UK industry to support global decarbonisation targets. Once fully operational, the facility will support 900 jobs in the area, with thousands more in the wider supply chain.
XLCC’s first order is for four 3,800km long cables to connect solar and wind renewable power generation in the Sahara to the UK for the Xlinks Morocco-UK power project.
XLCC have also issued two other important press releases.
XLCC To Build New Cable Laying Vessel To Address Increase In Future Demand For HVDC Cable
These are the first paragraphs.
XLCC, the new HVDC, renewable energy focused business in the UK, has completed the concept design of an advanced, first-of-a-kind Cable Laying Vessel to be delivered in the first half of 2025.
As the world strives for Net Zero, the UK, EU and other world economies have set themselves ambitious targets for decarbonisation. The UK, for example, has stated that it will be powered entirely by clean energy by 2035 and that it will fully decarbonise the power system in the same time frame. This ambition is driving an exponential growth in high voltage cable demand as the increase in installation of offshore wind and interconnectors drive a forecast six times increase (2020 – 2027 over 2014 – 2020) for HVDC cable.
The planned delivery of the XLCC CLV will support the Morocco – UK Power Project, the first client project, through the delivery of four 3,800km subsea HVDC cables from a wind and solar generation site in Morocco to the UK.
This press release can be read in full here.
XLCC Signs UK Steel Charter For New Export-Led Cable Industry
These are the first paragraphs.
XLCC signed the UK Steel Charter at an event in Parliament on 19 April 2022, alongside representatives from politics, business and the trade union movement.
XLCC will create a new export-led HVDC cable manufacturing industry for the UK, nearly doubling the world’s current production. It aims to support renewable energy projects with the first factory planned for Hunterston, Scotland. XLCC will deliver its first project for the Xlinks Morocco-UK Power Project, consisting of four 3,800km long subsea cables, with the first phase between 2025-2027 connecting wind and solar power generated in Morocco exclusively to the UK in Devon.
Signing the UK Steel Charter shows a commitment to supporting existing and future jobs within the sector and the supply chain. Along with strengthening UK-based business, sourcing steel locally will cut transport emissions and seek to support decarbonisation in a sector dedicated to finding ways to minimise environmental impact of steel use.
This press release can be read in full here.
I have a few thoughts.
You Wait For A Large Interconnector Project To Come Along And Then Two Arrive Holding Hands
This paragraph introduces the Morocco-UK Power Project.
The Xlinks Morocco-UK Power Project will be a new electricity generation facility entirely powered by solar and wind energy combined with a battery storage facility. Located in Morocco’s renewable energy rich region of Guelmim Oued Noun, it will cover an approximate area of 1,500km2 and will be connected exclusively to Great Britain via 3,800km HVDC sub-sea cables.
XLCC have this mission statement on their home page.
XLCC will establish a new, export-led, green industry in the UK: world class HVDC subsea cable manufacturing.
Our mission is to provide the connectivity required for renewable power to meet future global energy needs.
Xlinks Morocco-UK Power Project and XLCC appear to be made for each other.
In some ways it takes me back to the 1970s, where large oil and gas projects in the North Sea were paired with platform building in Scottish lochs.
There Are Several Interconnector Projects Under Development
We will see a lot of undersea interconnectors in the next few years.
- Country-to-country interconnectors
- Interconnectors along the coast of the UK.
- Connections to offshore wind farms.
This capacity, with a ship to lay it, is being created at the right time.
Icelink
Icelink is a proposed interconnector between Iceland and the UK.
- It would be up to 1200 km long.
- It would have a capacity of around 1 GW
XLCC could spur the development of this project.
Floating Wind Farms Hundreds Of Miles Out To Sea
The developer of a floating wind farm, say a hundred miles out to sea, is not going to develop it, if there isn’t a secure supply of cable.
Where Will Finance Come From?
Wind farms have proven to be good investments for finance giants such as Aviva.
See World’s Largest Wind Farm Attracts Huge Backing From Insurance Giant, for Aviva’s philosophy.
As mathematical modelling for electrical systems get better, the estimates of the finance needed and the returns to be made, will indicate whether these mega-projects can be funded.
It was done with North Sea oil and gas and it can be done with offshore wind power and its interconnectors.
In The Times on the 4th of July 2022, there is this article, which is entitled Schroders Chief Buzzing To Take Finance Offshore Wind Farms.
It is a must-read!
Conclusion
XLCC and its cable factory will spur the expansion of zero-carbon electricity in the UK.
The Anonymous Widower 