Delivery of the CapsolGo® carbon capture and liquefaction units and commencement of testing is scheduled for Q1 2026. The CapsolGo® demonstration campaign builds on a previously completed CapsolEoP® feasibility study, reinforcing the project’s technical and commercial viability.
“We’re proud to support the European cement producer on their path toward decarbonization and to demonstrate how our carbon capture solution can deliver efficient, cost-effective emissions reductions in hard-to-abate sectors. During the carbon capture and liquefaction process, we will perform an extensive gas and liquid analysis to support the producer’s CCS investment decisions in what will be our fourth demonstration campaign for the cement industry,” said Wendy Lam, CEO of Capsol Technologies.
Under the agreement, the CapsolGo® demonstration unit will be delivered as a turnkey solution, encompassing installation, operation, and testing. The objective is to generate valuable operational data and insights to support the producer in making informed decisions about future carbon capture investments.
Capsol's current project pipeline of large-scale cement projects in engineering study phases and CapsolGo® demonstration campaigns have a total potential carbon capture capacity of more than 12 million tonnes of CO2 annually.
About CapsolGo® demonstration units
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CapsolGo® demonstration projects are designed to provide emitters with carbon capture data using Capsol’s HPC-based (hot potassium carbonate) process on their specific plants. The non-proprietary solvent also facilitates easier permitting, supporting accelerated decision processes towards full-scale carbon capture.
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A standard CapsolGo® demonstration campaign is offered on a rental basis. It typically lasts six months and includes transportation, installation, operation, and testing services.
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Capsol’s HPC-based process uses potassium carbonate as the CO2 solvent, a process that is well-documented and used in more than 750 plants globally in multiple industries. A patented energy recirculation process offers low capture costs and the flexibility to monetize heat and electricity.