EPFL engineers in Sion, Switzerland have demonstrated the potential for achieving net-zero and net-negative emissions in essential industrial sectors through the integration of carbon capture and mineralization directly into the industrial processes themselves. Focusing on cement production, steel manufacture, and waste incineration,. the study, published in the journal Energy and Environmental Science, offers a cost-effective and energy-efficient approach to reducing CO2 emissions, contributing significantly to reaching global climate targets.
The study introduces a solution to integrate CO2 capture and mineralization within the production process itself. The mineralization reaction converts CO2 to CO3 in the form of carbonates, which are a safe and long-term storage solution for CO2. As a further ecological benefit, carbonates can be used as a building material, and the mineralization by-products can be integrated into blended cement formulation. This, in turn, prevents the extraction and manufacture of resources and contributes to reduced emissions and a circular economy.
The research from the Laboratory of Industrial Process and Energy Systems Engineering ( IPESE ) is a clear example of how system integration-the bringing together of previously separate industrial processes into one system-can significantly lower emissions in key sectors. According to Professor François Marechal, head of IPESE, these sectors need CO2 capturing to reach carbon neutrality. "Net-zero cannot be reached by replacing fossil fuels with renewable energy alone. In this study, we demonstrate the importance of adopting a process integration approach to reduce the cost of CO2 capture and sequestration," says Marechal. According to the research, mineralization achieves the ultimate oxidation state for carbon, guarantees safe and long-term sequestration and solves the problem of finding deep geological locations for sequestration.
Sarah Holmes from the Royal Society of Chemistry had this to say about the impact of the research. "This research demonstrates how these industries could integrate carbon capture and storage in a practical and economically-feasible way. Crucially, the study has also demonstrated the potential for net-negative emissions, opening up new possibilities for these industries to reduce their impact on climate change. This is a great start to building a roadmap to a greener, more sustainable future for cement production, waste incineration, and steel manufacture."