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3 min read
• May 22, 2024Breakthrough carbon capture technology ready for field testing
Key takeaways:
- We’re developing a breakthrough emissions-reduction technology.
- Carbonate fuel cells could capture CO2 more efficiently, cost-effectively.
- We’ll demonstrate this technology at our Rotterdam site starting in 2026.
3 min read
• May 22, 2024We all know carbon capture and storage (CCS) is considered essential to lowering carbon dioxide (CO2) emissions from industries such as steel, cement and chemicals. But what if there was a technology that could capture CO2 more efficiently, and at a lower cost?
ExxonMobil’s been working with FuelCell Energy to develop just such a technology, which uses carbonate fuel cells to capture CO2 from the exhaust of an industrial plant, preventing the CO2 from being released into the atmosphere. Our research indicates it could capture more than 90% of CO2 emissions.
We plan to demonstrate this breakthrough technology as part of a pilot project at our manufacturing site in Rotterdam, starting in 2026.
CFC: Why it’s promising
Carbonate fuel cell technology has two main benefits:
- It’s energy-efficient, because it’s based on electrochemical processes that are inherently more efficient than conventional, thermal-based CO2 capture processes.
- It captures CO2 while simultaneously generating low-carbon power, heat and hydrogen. These valuable co-products can be used within the industrial facility, or elsewhere, lowering the overall cost of carbon capture.
Also: the fuel cells are modular units, which let the system be scaled up or down depending on the size of the facility.
Out of the lab, into the real world
FuelCell Energy originally developed carbonate fuel cell technology for small-scale power generation using natural gas. We’ve been working together for several years on a next-generation design that would expand its application to capturing CO2 at large-scale industrial sites.
Now, we’re ready to move the technology out of the lab and into the real world.
Our Rotterdam pilot will mark the first time carbonate fuel cell technology is used to capture CO2 from a working industrial site. The captured CO2 will be transported and permanently stored under the North Sea via the Porthos project.
Pending a successful pilot, this carbonate fuel cell technology could be used at our other manufacturing sites around the world. ExxonMobil and Fuel Cell Energy also could commercialize it to help other companies reduce their emissions.
In the meantime, FuelCell Energy will incorporate elements of the next-generation technology into its current commercial modules, which is expected to accelerate its delivery to market while the Rotterdam demonstration is underway.
ExxonMobil deploys multiple technologies to offer integrated carbon capture, utilization, and storage (CCUS) solutions to customers, and the carbonate fuel cell has the potential to be part of this technology toolkit. It could potentially offer economical decarbonization solutions for customers from a wide range of industries, supporting society’s goal of a net-zero future.
Scroll down to find out how this breakthrough technology works.
How does our Carbonate Fuel Cell work?
ExxonMobil and FuelCell Energy are developing a carbon capture technology that could be a solution for one of the energy transition’s big challenges: capturing carbon dioxide (CO2) efficiently and cost-effectively, at an industrial scale.
The carbonate fuel cell captures CO2 from the exhaust of an industrial plant, preventing it from being released into the atmosphere. And unlike other carbon capture technologies, it simultaneously generates low carbon power, heat and hydrogen – valuable co-products that can reduce the overall cost of carbon capture.
Here’s how it works:
Industrial site
The exhaust stream of an industrial plant contains CO2. Carbonate fuel cells could capture 90% or more of the CO2 from a stream, preventing it from being released into the atmosphere.
Carbonate fuel cell modules
This technology also generates power, heat and hydrogen. The fuel cells are modular and can be deployed in facilities of many different sizes.
Pipes for storage
The captured CO2 is compressed and transported for safe, permanent storage.
Industrial site
Carbonate fuel cell modules
Pipes for storage
Carbon capture and storage
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