Carbon Clean Solutions to conduct solvent testing at University of Kentucky advanced carbon capture pilot

July 2018

Carbon Clean Solutions Limited (CCSL), a global leader in delivering low-cost carbon dioxide separation technology, is pleased to announce it will test its carbon capture solvent at University of Kentucky (UK)’s Center for Applied Energy Research (CAER) 0.7MW pilot system installed at Kentucky Utilities’ E.W. Brown Generating Station in Harrodsburg, Kentucky. This follows the US Department of Energy’s decision to award UK CAER with a research grant worth $940,000, to advance its world-renowned carbon dioxide (CO2) capture research and development. This test will be CCSL’s largest solvent test in the US to date.

CCSL will work with UK CAER’s project team – including LG&E and Kentucky Utilities, and Koch Modular Process Systems, among others –to conduct a pre-feasibility engineering study for an advanced CO2 capture system. If approved by the US Department of Energy, UK CAER and its partners will proceed to design and build a commercial scale 10 MW CO2 capture system integrated with an existing coal-fired power station.

CCSL's role in the feasibility study will be to provide its patented CO2 separation solvent technology at the UK CAER-designed facility and to help validate the feasibility of large-scale C02 capture. This follows successful testing of CCSL’s technology at the University of Kentucky’s bench scale, 0.1 MW plant in 2016.  

Prateek Bumb, CTO, CCSL, said: “We are delighted to be working alongside our colleagues at the University of Kentucky CAER to deliver a scalable and cost efficient solution to carbon dioxide emissions. CCSL’s solvents are deployed at multiple energy plants around the world and this test will further our commitment to building better technology to capture carbon.”

Kunlei Liu, principal investigator, UK CAER, said: “We look forward to partnering with Carbon Clean Solutions Limited as we move one step closer to commercializing this breakthrough carbon capture technology.”