Cryogenic Carbon Capture for Natural Gas Combined Cycle Applications


I will discuss the current state of a pilot plant being built to demonstrate the cryogenic carbon capture technology applied to the demanding flue gas of a high efficiency natural gas fired combined cycle powerplant just coming on-line in Saudi Arabia. This pilot plant will capture 30 tonnes/day of high purity CO2 and deliver as a supercritical fluid to the user. I will discuss why we believe this is a scaleable, deployable, and affordable technology for point source carbon capture. Extending the technology to other constituents (e.g., SOx) and platforms (e.g., cement) will be discussed.

I will discuss the current state of a pilot plant being built to demonstrate the cryogenic carbon capture technology applied to the demanding flue gas of a high efficiency natural gas fired combined cycle powerplant just coming on-line in Saudi Arabia.  This pilot plant will capture 30 tonnes/day of high purity CO2 and deliver as a supercritical fluid to the user.  I will discuss why we believe this is a scaleable, deployable, and affordable technology for point source carbon capture.  Extending the technology to other constituents (e.g., SOx) and platforms (e.g., cement) will be discussed.

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