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.
The Anonymous Widower 