This text describes water's use in the production of raw fuels, as an energy carrier (e.g., hot water and steam), and as a reactant, reaction medium, and catalyst for the conversion of raw fuels to synthetic fuels. It explains how supercritical water is used to convert fossil- and bio-based feedstock to synthetic fuels in the presence and absence of a catalyst. It also explores water as a direct source of energy and fuel, such as hydrogen from water dissociation, methane from water-based clathrate molecules, and more.
This text describes water's use in the production of raw fuels, as an energy carrier (e.g., hot water and steam), and as a reactant, reaction medium, and catalyst for the conversion of raw fuels to synthetic fuels. It explains how supercritical water is used to convert fossil- and bio-based feedstock to synthetic fuels in the presence and absence of a catalyst. It also explores water as a direct source of energy and fuel, such as hydrogen from water dissociation, methane from water-based clathrate molecules, and more.Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
Yatish T. Shah received his BS from University of Michigan, Ann Arbor, USA and MS and Sc.D from Massachusetts Institute of Technology, Cambridge, USA. During his 40+ years of experience, he has served as chemical and petroleum engineering department chairman, dean of engineering, chief research officer, provost, visiting scholar, and visiting professor at ten different institutions. Currently he is professor of engineering at Norfolk State University, Virginia, USA. He is also an active consultant to numerous organizations in the energy sector. He has authored four books and over 250 reviews and refereed technical publications in the areas of energy, environmental, and reaction engineering.
Inhaltsangabe
Introduction. Role of Water in Recovery and Production of Raw Fuels. Energy Recovery by Benign Hydrothermal Processes (ERP). Steam Gasification and Reforming Technologies. Hydrothermal Processes in Subcritical Water. Aqueous Phase Reforming and Bioforming Process. Biofine Hydrolysis Process and Derivative Product Upgrading Technologies. Anaerobic Digestion of Aqueous Waste for Methane and Hydrogen. Hydrolysis and Fermentation Technologies for Alcohols. Fuel Production by Supercritical Water. Water Dissociation Technologies for Hydrogen. Methane from Gas Hydrates. Power and Energy Directly from Water.
Introduction. Role of Water in Recovery and Production of Raw Fuels. Energy Recovery by Benign Hydrothermal Processes (ERP). Steam Gasification and Reforming Technologies. Hydrothermal Processes in Subcritical Water. Aqueous Phase Reforming and Bioforming Process. Biofine Hydrolysis Process and Derivative Product Upgrading Technologies. Anaerobic Digestion of Aqueous Waste for Methane and Hydrogen. Hydrolysis and Fermentation Technologies for Alcohols. Fuel Production by Supercritical Water. Water Dissociation Technologies for Hydrogen. Methane from Gas Hydrates. Power and Energy Directly from Water.
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