The CycloneCC C1 series is available in concentrations ranging from 3% to 20%, capturing up to 100,000 tonnes of CO2 per year. Each unit is fully modular and columnless, achieving a height reduction of 70% compared to conventional solutions. The unit footprint is up to 50% smaller than conventional carbon capture plants, with its largest equipment sizes reduced by a factor of 10.
Each unit is prefabricated, skid-mounted and delivered on road truckable modules, cutting the costs associated with transport, logistics, site preparation and installation; the total installed cost is up to 50% less compared to conventional solutions, the company claims.
According to Carbon Clean, more than 50% of industrial emitters lack the space required to deploy conventional carbon capture plants. With its space-efficient design, CycloneCC C1 offers a viable, cost-effective route to decarbonisation, particularly for small-to-midsize emitters. CycloneCC C1 is also ideal for emitters of all sizes looking to deploy carbon capture units across multiple flue gas emission sources.
Prateek Bumb, Co-founder and Chief Technology Officer of Carbon Clean, said, “The launch of the CycloneCC C1 series is a major milestone in the technology’s commercialisation. Repeatability is key to mass adoption, as demonstrated with solar panels and EV batteries. Carbon Clean is leading a similar transformation through eliminating the columns used in conventional carbon capture solutions."
"Delivering fully modular, columnless, replicable units with a substantially smaller footprint is a technological breakthrough. CycloneCC’s ‘Lego-block’, ‘plug and play’ design makes it simple and cost-effective to install, making carbon capture financially and logistically viable to be deployed at scale. First-mover customers and early adopters will have the advantage of tangible decarbonisation results while benefiting from a staggered approach to capital investment due to CycloneCC C1’s modular design.”
At the heart of CycloneCC C1 is the breakthrough combination of two process intensification technologies: rotating packed beds (RPBs) and Carbon Clean’s proprietary APBS-CDRMax solvent. The first-of-a-kind (FOAK) technology application of RPBs to a carbon capture plant is a gamechanger for the sector, the company said. Using RPBs to replace the columns used in conventional carbon capture solutions both reduces the size of the plant and accelerates the mass transfer process, increasing CO2 absorption.
Carbon Clean said its high-performing APBS-CDRMax solvent achieves substantial OpEx savings through outperforming the industry standard solvent. APBS-CDRMax lowers energy demand by 10-25%, reduces corrosion by a factor of 20, decreases degradation by a factor of 10, and has a lifespan that is five times longer than conventional solvents.
First-mover customers of the CycloneCC C1 series will have the opportunity to influence the development of the fully commercialised product while experiencing the benefits of tangible decarbonisation results. Early adopters will also be priority customers for the fully commercialised product when it is rolled out at scale.