Decarbonizing gas turbines
- Without sacrificing performance
A solution tailored for operators like you
If you operate gas turbines - in data centers, utilities, or midstream gas infrastructure - you know the challenges:
✓ Maintaining reliable power and grid stability.
✓ Delivering peak performance under fluctuating loads.
✓ Meeting tightening emissions regulations and sustainability targets.
CapsolGT® is designed with your needs in mind - a fully electric CO₂ capture solution that integrates seamlessly with your existing gas turbine assets while preserving, and even enhancing, performance.
Why CapsolGT® works for you
For data centers:
➜ Ensure resilient, on-site power with low-carbon credentials to meet customer and regulatory expectations.
➜ Preserve uptime while reducing your Scope 1 emissions footprint.
For utilities & power producers:
➜ Turn open-cycle gas turbines into high-efficiency, low-emission power plants.
➜ Support grid flexibility and dispatchable capacity - with carbon capture built in.
For midstream gas & industrial facilities:
➜ Continue operating critical gas infrastructure responsibly and sustainably.
➜ Capture and store emissions to stay ahead of environmental regulations.
Turns OCGTs into combined-cycle with carbon capture
CapsolGT® captures CO₂ directly from hot flue gases (500-600 °C) of open-cycle gas turbines (OCGTs) - turning them into efficient combined-cycle plants with integrated carbon capture.
While conventional solutions struggle with high-temperature flue gas or consume valuable plant steam, CapsolGT® is:
✓ Fully electric - no steam extraction.
✓ Energy positive - recovers more power than the capture process requires.
✓ Compatible with your existing assets - minimal disruption to operations.
✓ Built on decades of proven solvent technology (HPC).
How CapsolGT® works:
➊ Hot flue gas enters the system, transferring heat to pressurized clean gas for maximum efficiency.
➋ Flue gas is compressed and cooled, with energy recovery.
➌ CO₂ is absorbed in a packed bed using hot potassium carbonate (HPC) solvent.
➍ CO₂-rich solvent is regenerated at atmospheric pressure, releasing purified CO₂.
➎ Heat for regeneration comes from electric mechanical vapor recompression (MVR), not your turbine steam.
➏ Reheated, pressurized clean gas is expanded, producing more power than the capture process consumes.
Key benefits for operators
➜ Up to 95% CO₂ capture while maintaining output.
➜ Lower carbon intensity for your electricity or heat production.
➜ Extend the useful life of your existing turbines.
➜ Enable district heating or power recovery from captured heat.
➜ Meet corporate climate goals - cost-effectively.
Ready to future-proof your gas turbines?
Let’s talk about how CapsolGT® can help you decarbonize without disruption.
