Engineering Solutions for CO2 Conversion

CO2 capture-A brief review of technologies and its integration Advancing CCSU technologies with Computational Fluid Dynamics (CFD): A look at the future by linking CFD and Process Simulations Membranes technologies for efficient CO2 capture-conversion Computational modeling of carbon dioxide catalytic conversion An overview of the transition to a carbon-neutral steel industry Potential processes for simultaneous biogas upgrading and carbon dioxide utilization Biogas sweetening technologies CO2 conversion to added-value gas phase products: technology overview and catalysts selection CO2 utilization enabled by microchannel reactors Analysis of High Pressure Conditions In CO2 Hydrogenation Processes Sabatier-based direct synthesis of methane and methanol using CO2 from industrial gas mixture A survey of heterogeneous catalysts for the CO2 reduction to CO via reverse water gas shift Electrocatalytic conversion of CO2 to syngas Recent progress on catalysts development for CO2 conversion into value-added chemicals by photo- and electro-reduction Yolk@Shell Materials for CO2 Conversion: Chemical and Photochemical Applications Aliphatic Polycarbonates Derived from Epoxides and CO2 Metal-Organic Frameworks (MOFs) for CO2 cycloaddition reactions Plasma-assisted conversion of CO2

Dr Tomas R. Reina is a lecturer in Chemical Engineering and the leader of the Catalysis Unit at the University of Surrey. He holds a PhD in Chemistry with a strong background in heterogeneous catalysis, reaction engineering and materials science. He has broad expertise in the development of advanced catalysts for energy conversion and sustainability. Currently, he is the PI of several projects in the area of CO2 utilisation (sponsored by EPSRC) and green routes for chemicals and fuel production. His research in the field of catalysis has been internationally recognized with several awards and distinctions from prestigious institutions including the European Federation of Catalysis Societies (EFCATS), the Spanish Society of Catalysis (SECAT), and the Institution of Chemical Engineers (IChemE). Prof. José A. Odriozola is Chair of Inorganic Chemistry of the University of Sevilla, Spain. He is Fellow of the Spanish Society of Catalysis and of the American Chemical Society, and Head of the Materials Science and Technology Panel of the Spanish National Agency for Evaluation and Prospective, ANEP (2004-2006). Prof. Odriozola has focused his research on the surface chemistry of materials and has developed a new research line focused on the manufacture and study of micromonoliths and microchannel reactors for energetic and environmental catalytic applications including CO2 utilization. Prof. Harvey Arellano-Garcia is Director of Research and Professor of Energy and Chemical Engineering at the Department of Process and Plant Technology at BTU-Cottbus, Germany. He holds an honorary Professorship and is Distinguished Visiting Professor at the Technical University of Berlin in Germany. He has made valuable and relevant contributions to diverse research areas in Energy and Process Systems Engineering. He has pioneered and introduced a novel formulation of optimization problems under uncertainty and proposed methods that enable the efficient solution of the resulting complex