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Full Description
The book covers advances in hydrothermal reduction of CO2 into low-carbon fuels. It offers perspectives from chemical engineering, environmental chemicals, organic chemistry, inorganic chemistry, physical chemistry, geology and materials science. It addresses fundamentals and applications of hydrothermal chemical processes, associated materials, and technologies. It describes reduction with biomass and dissociation of water by solar energy-driven two-step process. Challenges and strategies are discussed to facilitate research and development.
Contents
Water under High Temperature and Pressure Conditions (and Some Special Reactions under Hydrothermal Conditions). Catalytic Hydrothermal Reactions for Small Molecules Activation. Hydrothermal Water Splitting for Hydrogen Production with Other Metals. Hydrothermal Water Splitting for Hydrogen Production with Iron. Hydrothermal CO2 Reduction with Iron to Produce Formic Acid. Hydrothermal Reduction of Carbon Dioxide to Low-Carbon Fuels. Hydrothermal CO2 Reduction with Zinc to Produce Formic Acid. Auto-Catalytic Hydrothermal CO2 Reduction with Manganese to Produce Formic Acid. Auto-Catalytic Hydrothermal CO2 Reduction with Aluminum to Produce Formic Acid. Cu-Catalyzed Hydrothermal CO2 Reduction with Zinc to Produce Methanol. Hydrothermal Reduction of CO2 with Glycerin. Hydrothermal Reduction of CO2 with Compounds Containing Nitrogen. Perspectives and Challenges of CO2 Hydrothermal Reduction
