KEZO's Groundbreaking Carbon Capture Pilot with CATACARB® HPC Technology

In a significant move towards reducing greenhouse gas emissions, KEZO, a waste management company based in Zurich Oberland, has initiated a pioneering pilot project utilizing the CATACARB® hot potassium carbonate (HPC) technology. This innovative project is set to take place at its waste-to-energy conversion plant located in Hinwil, Switzerland, in collaboration with Sulzer, a global leader in technology licensing.

The CATACARB Technology

The CATACARB technology offers a highly effective solution for carbon dioxide (CO2) capture, boasting a performance guarantee that allows for up to 90% CO2 capture efficiency. This impressive capability is crucial for mitigating the environmental impact of industrial operations, especially in sectors handling complex combustion gases.

Designed specifically to operate under challenging conditions with fluctuating temperatures and intermittent waste flows, the CATACARB HPC process adapts exceptionally well to the gas characteristics produced in waste combustion. Thus, the project aims to not only demonstrate consistent efficiency in carbon capture but also promote simplified solvent management that prioritizes health and safety, alongside a lower overall energy consumption compared to traditional amine-based methods.

Goals of the Pilot Project

One of the primary objectives of KEZO's pilot project is to gather extensive operational data that will inform the company’s future commercial deployment efforts. KEZO is committed to decarbonization initiatives by employing pragmatic technological solutions, and the insights gained from this pilot will play an essential role in guiding discussions around viable carbon capture management options tailored to the waste energy sector.

Moreover, these results will assist KEZO and Sulzer in making informed decisions regarding scaling the implementation of CATACARB technology to enhance environmental sustainability in energy generation.

Statements from Company Executives

Gary Buckholz, the CEO of CATACARB, emphasizes the significance of this project: "Implementing the CATACARB HPC technology showcases its suitability for treating complex industrial combustion gases. This initiative marks an essential stride in combating climate change, and we must continue advancing our efforts. We take pride in contributing to this teamwork and look forward to our ongoing partnership with KEZO and Sulzer."

Broader Implications for Industry

The versatility of CATACARB technology is evident, as it is applicable across various industries generating combustion gases, such as power generation (including combined heat and power, biomass, and waste-to-energy), cement manufacturing, paper and pulp processing, gas refining, petrochemical industries, and more. This adaptability positions CATACARB as a key player in addressing environmental challenges faced by diverse sectors.

Conclusion

As KEZO moves forward with its groundbreaking pilot project, it sets a precedent for other companies in the carbon capture space. The comprehensive operational data gathered will not only facilitate commercial scaling but enhance overall efforts to transition toward a more sustainable energy future, ultimately contributing to the ongoing fight against global climate change. The collaboration among KEZO, Sulzer, and CATACARB serves as a beacon of hope, demonstrating how innovative technology can pave the way for cleaner and greener industrial practices.