Shares Available In ‘UK-First’ Community-Owned Battery Energy Storage System
The title of this post is the same as that on this article on Solar Power Portal.
This is the sub-heading.
Low Carbon Hub, an Oxfordshire-based developer of community-owned renewable energy projects, is inviting investment in the 3MW/12MWh BESS.
These four paragraphs add more details.
Consumers have the opportunity to invest in the UK’s ‘first’ community-owned battery energy storage system (BESS).
Low Carbon Hub, an Oxfordshire-based developer of community-owned renewable energy projects, is inviting investment in the 3MW/12MWh BESS, which is co-located with the Ray Valley solar power plant.
At one time the largest community-owned solar development in the UK, the 19MW Ray Valley solar project came online in 2022.
Low Carbon Hub now plans to install battery energy storage at the site to “ensure more clean energy is used, and more money is generated for communities,” it said. As such, members of the public and organisations can buy shares in the Community Energy Fund through direct impact investing platform Ethex.
I think we could see more of this in the future.
Centrica Partners With Ceres Power On Solid Oxide Fuel Cells
The title of this post, is the same as this article on gasworld.
This is the sub-heading.
UK multinational energy and services company Centrica is partnering with clean tech firm Ceres Power to accelerate solid oxide fuel cells [SOFCs] production to meet forecasted ‘multi-gigawatt’ demand from industrial customers across Europe.
These three paragraphs indicate the market opportunity, that Centrica feel, that the partnership will fill.
With electricity grid connection delays impacting new industrial, commercial and digital projects, the UK and Europe are experiencing a widening gap between demand and available capacity.
Centrica aims to offer customers high‑efficiency, low‑carbon, grid independent on‑site power that can be deployed much faster than gas turbines or nuclear.
Group Chief Executive Chris O’Shea said by collaborating with Ceres’ technology it sees an opportunity to support data centres, AI and industry with cleaner power at scale. Ceres claims SOFCs can be manufactured and delivered on site to get power online “in months not years”.
It certainly sounds feasible to drop in an appropriate-sized stack of fuel cells and connect them up to the gas main.
These two paragraphs, indicate how Ceres will support Centrica.
Initially, Ceres will support Centrica in expanding a new differentiated service-led model for clean power, providing access to British technology through its expanding network of global manufacturing partners.
Ceres will assist Centrica with opportunities across project origination, installation and commissioning, remote monitoring, predictive maintenance and end of life recycling.
I have a few questions for Google AI.
Do Ceres Fuel Cells Emit Carbon Dioxide?
Google AI replied this.
Yes, Ceres Power has developed Solid Oxide Fuel Cell (SOFC) technology, known as the SteelCell®, that works on natural gas. This technology is specifically designed to be fuel-flexible, capable of converting grid natural gas into electricity at high efficiency.
Key Details About Ceres Fuel Cells and Natural Gas:
Technology Capability: The Ceres SteelCell runs on natural gas, as well as future-focused fuels like hydrogen and biogas.
Application: These fuel cells are used for distributed power generation in homes, businesses, and industrial settings (such as AI data centres).
Efficiency: When running on natural gas, the SOFC systems can achieve an electrical efficiency of around 62%, with total efficiency exceeding 90% when combined with heat recovery.
Emission Reductions: Compared to conventional combustion engines, the technology offers a 30% reduction in carbon emissions.
Current Strategy: As of early 2026, Ceres is focusing on natural gas-fueled SOFCs for stationary power markets, particularly in collaboration with partners like Centrica to address power shortages in the UK and Europe.
While the systems can be used for hydrogen in the long term, they are currently fully functional with natural gas, making them a “bridge” technology for decarbonisation.
A 30% reduction is surely worthwhile!
In What Size Are Ceres Power Holdings Fuel Cells Manufactured?
Google AI replied this.
Ceres Power Holdings’ solid oxide fuel cell (SOFC) technology is manufactured in modular, scalable sizes, with individual stacks ranging from 10-50 kW and commonly deployed in 1-5 MW power modules. These stacks are produced at manufacturing facilities with capacities like 50MW (e.g., with partner Doosan), with plans for up to 100MW annual capacity.
Key manufacturing and size details include:
Cell Component: 30–150W.
Stack: 10–50 kW.
Stack Array/Module: 100–500 kW, up to 1-5 MW modules.
Manufacturing Capacity: 50MW production facility in South Korea (Doosan), with plans for 100MW+ annual capacity in future plants.
Applications: Primarily stationary, distributed power systems for AI data centres, industrial decarbonisation, and commercial buildings.
Ceres licenses its technology to partners like Bosch and Doosan, with cell technology based on low-cost printed steel substrate
How Much Power Does A Top Of The Range MRi Scanner Use?
I am asking this question, as it is surely something you might power with a Ceres fuel cell powered by natural gas.
Google AI replied this.
A top-of-the-range MRI scanner (such as a 3-Tesla or 7-Tesla system) is highly energy-intensive, consuming substantial power 24/7 to maintain its superconducting magnet. During active scanning, power usage often ranges from 25 kW up to 80 kW or more.
Here is a breakdown of the power consumption for high-end MRI scanners:
Power Consumption Breakdown
Idle/Stand-by Mode (24/7): The machine constantly consumes roughly 6 to 7 kW for background cooling (liquid helium refrigeration).
Standard Scanning: Productive scanning sessions typically demand around 25 kW.
High-Demand Scanning: Demanding examinations (e.g., head examinations with EPI sequences or special angles) can cause power usage to surge to 70 kW to 80 kW.
System Total: A 3T MRI, including cooling systems (chillers) and peripheral electronics, might require a 3-phase, 480V, 200A supply—roughly equivalent to the capacity of six modern houses.
Conclusion
This seems to be a deal with a large number of possibilities.
Speaking from my past experience of banks and financing, where the bill is ultimately paid by a reputable individual or company like Shell or BP, I believe that Centrica will have no difficulty in financing lots of these systemsusing instiutions like Lloyds or Deutsche Bank.
Cardiff Queen Street And Cardiff Bay Stations – 24th March 2026
After I’d visited Caerphilly station, which I wrote about in Cardiff And Caerphilly – 24th March 2026, I went to look at Cardiff Queen Street And Cardiff Bay stations.
I took these pictures.
Note.
Cardiff And Caerphilly – 24th March 2026
I took this pictures, as I rode up the Rhymney Valley from Cardiff to Caerphilly.
Note.
- The trains I took up and down the valley were both Class 756 tri-mode trains.
- My train reversed to Penarth in Platform 1.
- I think they were running using the diesel power in the power pack.
- There is an overhead conductor rail in Platform 1 at Caerphilly station to charge trains.
- The electrification North of Caerphilly station can be seen through the bridge in one of the pictures.
- Platforms 2 and 3 are not electrified.
I think Caerphilly station is a very neat electrification layout for occasional charging of battery-electric or tri-mode trains.
I have some specific thoughts.
What Have Caerphilly And St. Pancras Thameslink Stations Got In Common?
These pictures show the rigid conductor rail through St. Pancras Thameslink station.
It looks remarkably similar to that in Platform 1 at Caerphilly station.
Judge in this picture.
The rails are probably out of the same Swiss electrification maker’s parts bin.
Both look equally professional with an I-section conductor, which could be aluminium, as it is lightweight and a good electrical conductor.
Google AI finds this.
The I-beam overhead conductor system used in St. Pancras Thameslink station is made of a hollow extruded aluminium profile. This system, known as a conductor beam, holds a conventional copper contact wire, providing a rigid, low-profile alternative to traditional overhead wires.
Key details:
Material: Extruded aluminium profile.
Structure: Hollow, designed to hold an un-tensioned, conventional copper contact wire.
Application: Developed by Balfour Beatty to reduce the required depth of overhead line equipment.
Installation: Often installed in a sinusoidal wave to ensure consistent wear on the pantograph.
This technology is used in areas with restricted overhead space, such as tunnels and some modern station approaches, to manage 25kV AC electrification.
It looks like it’s been used to provide a charging rail in Caerphilly station.
Is The Conductor Rail In Platform 1 Used To Create A Continuous Electrical Connection Around Caerphilly Station?
Look at this OpenRailwayMap, which shows the completed electrification through Caerphilly station.
Note.
- Red tracks are electrified.
- Black tracks are not electrified.
- Caerphilly station is indicated by the blue arrow.
- The electrification continues to the Western end of the station.
- The two main platforms 2 & 3 are not electrified.
- The bay platform 1 is electrified to charge trains for return to Cardiff.
- Class 756 tri-mode electric-diesel-battery trains are already in service.
- There appears to be a comprehensive bus interchange.
The power for Platform 1 could come from the electrification at the Western end of the station.
I wouldn’t be surprised that the Rhymney Line will be fed with electricity at the heads of the valleys and it is fully-connected down to Cardiff to give a secure electrical connection.
Will Welsh Wind Power From The Heads Of The Valleys Be Used To Power The Cardiff Valley Lines?
To start with, as I know it can be blowy there, I asked Google AI, this question.
“Is Onshore Wind Planned At The Heads Of The Valleys In South Wales?”
I received this answer.
Yes, there is significant onshore wind energy development planned and in progress along the Heads of the Valleys area in South Wales. This region, encompassing areas like Merthyr Tydfil, Blaenau Gwent, and northern Rhondda Cynon Taf, is part of a broader push to increase onshore wind capacity in Wales, with many projects located on Natural Resources Wales forestry land.
Key Developments and Proposed Projects (2025-2026):
Trydan Gwyrdd Cymru: The Welsh government-owned developer has selected sites in South Wales for new, large-scale wind farms intended to be operational by 2040.
Carreg Wen Wind Farm: A planned 18-turbine project located between Aberdare and Maerdy (Rhondda Cynon Taf), near the Hirwaun/Heads of the Valleys area.
Hirfynydd Renewable Energy Park: A proposed project located on the Hirfynydd mountain range between Seven Sisters and Banwen, north of Neath, near the western end of the Heads of the Valleys.
Mynydd Llanhilleth and Trecelyn Wind Farms: Projects in the pre-application or planning stages by Pennant Walters in the Blaenau Gwent area.
Abergorki Wind Farm: A consented three-turbine project on Mynydd Maerdy (Rhondda Cynon Taf) with construction scheduled for 2026.
Operational Context:
Pen y Cymoedd: Already operational and currently the largest onshore wind farm in England and Wales, situated in the hills above the upper Neath, Afan, Rhondda, and Cynon Valleys.
Grid Infrastructure: Proposed new substations, such as one near Hirwaun (Rhondda Cynon Taf), are intended to connect these new projects to the national grid.
These developments are part of a target to generate 70% of Wales’ electricity from renewable sources by 2030, with a focus on areas previously identified as suitable for large-scale wind development.
Note.
- Pen y Cymoedd is the largest onshore wind farm in Wales and England, with an installed capacity of 228 MW.
- With the right size of battery, I’m fairly sure, that this wind farm could go a long way to powering the Cardiff Valley Lines.
- Carreg Wen Wind Farm is planned to be 108 MW wind farm.
- Hirfynydd Renewable Energy Park is planned to be a 100 MW hybrid development of wind turbines and solar with a battery.
- Mynydd Llanhilleth is planned to be a 48 MW wind farm.
- Trecelyn is planned to be a 20 MW wind farm.
- Abergorki is planned to be a 13 MW wind farm.
The total of new developments is 389 MW, which is about the same size as a Rolls-Royce SMR.
EasyJet’s New Slimline Seats Will Offer 2 Inches More Legroom
The title of this post, is the same as that of this article in The Times.
This is the sub-heading.
The Kestrel seat’s thinner design promises improved knee and shin clearance. Could the ‘fixed recline’ feature also lead to fewer spats over space?
These three paragraphs add more detail to the story.
As budget airlines try to squeeze more and more passengers onto flights, it can feel as though the seat in front gets slightly closer every time you step on a plane.
But a “next generation” economy seat is coming, which its makers say will give travellers extra legroom with no loss of space for airlines.
The Kestrel seat from Mirus Aircraft Seating, a British manufacturer, will be installed from 2028 on hundreds of easyJet’s new aircraft, providing an extra two inches of “improved knee and shin clearance” for passengers.
Hopefully easyJet’s passengers will be sitting more comfortably.
Funds Committed To Explore More Rail Expansion
The title of this post, is the same as that of this article on the BBC.
This is the sub-heading.
Money has been allocated to develop plans to extend a popular rail route reinstated 15 months ago
These three paragraphs add more details.
Last week, the North East Combined Authority (NECA) committed an initial £2.5m to a dedicated Rail Development Fund, which included plans to expand the Northumberland Line.
Northumberland County Council leader Glen Sanderson said he hoped planning applications for the line’s extension to Newbiggin-on-Sea could be submitted by 2028 and suggested a station could be added to serve Wansbeck General Hospital.
The funding would be used to “accelerate rail‑related scheme development across the region” including a plan to reopen Ferryhill Station in County Durham as part of the Leamside Line.
This would appear to be most of what campaigners want.
Clarksons To Support RWE’s Vanguard West, Vanguard East From ABP’s New Lowestoft Facility
The title of this post, is the same as that of this article on offshoreWIND.biz.
This is the sub-heading.
Clarksons Port Services has signed an agreement with RWE and Associated British Ports (ABP) for RWE’s Vanguard West and Vanguard East offshore wind projects in the UK.
These three paragraphs add more detail to the story.
Under the agreement, the company will support the construction of the two offshore wind farms from the Lowestoft Eastern Energy Facility (LEEF), where Clarksons will lease and operate a facility on behalf of RWE.
ABP officially opened the new port facility in January 2025, after investing GBP 35 million (around EUR 40 million) in the port infrastructure. The facility features deep-water berths, modern utilities and future-proofed infrastructure to support shore power and alternative fuels, according to the port operator.
RWE secured Contracts for Difference (CfDs) for the two offshore wind farms in January this year, when the UK government awarded 8.4 GW of offshore wind capacity in the seventh CfD round (AR7).
Vanguard West and Vanguard East offshore wind projects are almost identical 1545 MW projects, that should be commissioned in 2028/29.
The two projects are 47 km. off the coast of Norfolk.
They will bring their power ashore at Happisburgh and connect underground to the grid at a new substation at Necton.
If I was a Norfolk Nimby, I would feel, that RWE are building these wind farms so as not to annoy the neighbours.
- They are a fair way out to sea.
- There appear to be no overhead cables.
- The support will be handled in a purpose-built facility.
Judding by their actions, I do wonder if RWE are getting a shift on, as they would like to get these wind farms built before the 2029 General Election
How Green Are The Valley Lines?
This news item from Transport for Wales is entitled 100% Electrification Of The Core Valley Lines Complete.
This is the sub-heading.
Transport for Wales has completed the full electrification of the Core Valley lines, at the heart of the South Wales Metro, delivering one of Wales’ most ambitious rail infrastructure transport projects.
These two paragraphs describe the current status.
Dubbed the ‘Welsh Tube’, the £1bn project brought electric tri-mode trains to the South Wales Valleys for the very first time in 2024. This spring, TfW will introduce the first of its 36 fully electric Class 398 tram-trains. The new fleet will initially operate between Pontypridd and Cardiff Bay, providing greener, more frequent services as part of the South Wales Metro.
Passengers are already benefitting from these improvements with the Core Valley lines being one of the most punctual and reliable networks in Great Britain over the past 6 months.
This OpenRailwayMap shows the electrification in the Cardiff area.
Note.
- Red tracks are electrified.
- Black tracks are not electrified.
- Cardiff station is indicated by the blue arrow.
- The black track going West from Cardiff is the South Wales Main Line to Llantrisant, Bridgend, Port Talbot and Swansea.
- The red track going East from Cardiff is the South Wales Main Line to Newport, the Severn Tunnel, Bristol Parkway, Reading and London.
- The lines going North up the valleys are from the West to Maesteg, Treorchy, Aberdare, Merthyr Tydfil, Rhymney and Ebbw Vale.
- The most Easterly line is the Newport and Hereford Line.
I will now look at some of the electrification.
Caerphilly Station
Caerphilly statition is on the Rhymney Line.
In June 2018, I wrote Caerphilly Station and took these pictures of the station.
At the time, I considered it a difficult station to electrify.
This OpenRailwayMap shows the completed electrification through Caerphilly station.
Note.
- Red tracks are electrified.
- Black tracks are not electrified.
- Caerphilly station is indicated by the blue arrow.
- Tracks to the North of Caerphilly are electrified.
- Tracks to the South of Caerphilly are not electrified.
- The electrification layout allows station with its two bridges and the 1784 metre Caerphilly Tunnel to the South of the station, to be unwired.
- There appears to be another section of plain track to the North of Caerphilly.
This second OpenRailwayMap shows the completed electrification through Caerphilly station.
Note.
- Red tracks are electrified.
- Black tracks are not electrified.
- Caerphilly station is indicated by the blue arrow.
- The electrification continues to the Western end of the station.
- The two main platforms 2 & 3 are not electrified.
- The bay platform 1 is electrified to charge trains for return to Cardiff.
- Class 756 tri-mode electric-diesel-battery trains are already in service.
- There appears to be a comprehensive bus interchange.
Euston Station – 22nd March 2026
I went for breakfast to Euston and took these pictures on a quiet Sunday morning.
Will Northumberland Line Success Help More Open?
The title of this post, is the same as this article on the BBC.
This is the sub-heading.
On 29 March the final station, Bedlington, opens on the Northumberland Line marking the completion of the project to reopen the route from Newcastle to Ashington.
These three paragraphs add detail to the story.
With passenger numbers exceeding predictions, could its success give new impetus to other projects to reopen former railways across northern England?
Dennis Fancett, chair of the rail users group Senrug, which campaigned for the Northumberland line for 20 years, hopes so.
He believes the obvious next step is to extend it along the existing freight tracks to a new station at Woodhorn and from there to Newbiggin-by-the-Sea.
I believe that the Northumberland Line is following a pattern, that I call London Overground Syndrome.
The Anonymous Widower 