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Supercritical Water Processing Technologies for Environment, Energy and Nanomaterial Applications
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About Supercritical Water Processing Technologies For
Product Description This book systematically presents the technical aspects of supercritical water oxidation and supercritical water gasification for energy and environmental applications, which include reactor design, construction materials, corrosion, salt precipitation, etc. The book provides a comprehensive introduction to the properties of supercritical water, and the industrial applications, reaction mechanisms and reaction kinetics of supercritical water oxidation (SCWO) and supercritical water gasification (SCWG). The reactions occurring in supercritical water are complex, and studying their reaction mechanisms is of great importance for the development of supercritical water processing technologies. Accordingly, the book explains the oxidative mechanisms and kinetics of organic matter in supercritical water in detail. However, the harsh reaction conditions in supercritical water can easily create severe reactor corrosion and salt deposition problems. Therefore, the book also comprehensively reports on the mechanism analysis, state of research, and development trends regarding these two problems. Lastly, the book summarizes the development of supercritical water processing technologies, including studies on SCWO and SCWG, as well as near-zero-emission systems of pollutants based on SCWO technology. In short, the book provides a wealth of valuable information for all readers who are interested in using SCWO for organic waste treatment, and in using SCWG for hydrogen production with wet biomass. From the Back Cover This book systematically presents the technical aspects of supercritical water oxidation and supercritical water gasification for energy and environmental applications, which include reactor design, construction materials, corrosion, salt precipitation, etc. The book provides a comprehensive introduction to the properties of supercritical water, and the industrial applications, reaction mechanisms and reaction kinetics of supercritical water oxidation (SCWO) and supercritical water gasification (SCWG). The reactions occurring in supercritical water are complex, and studying their reaction mechanisms is of great importance for the development of supercritical water processing technologies. Accordingly, the book explains the oxidative mechanisms and kinetics of organic matter in supercritical water in detail. However, the harsh reaction conditions in supercritical water can easily create severe reactor corrosion and salt deposition problems. Therefore, the book also comprehensively reports on the mechanism analysis, state of research, and development trends regarding these two problems. Lastly, the book summarizes the development of supercritical water processing technologies, including studies on SCWO and SCWG, as well as near-zero-emission systems of pollutants based on SCWO technology. In short, the book provides a wealth of valuable information for all readers who are interested in using SCWO for organic waste treatment, and in using SCWG for hydrogen production with wet biomass. About the Author Dr. Shuzhong Wang did his B.S. in energy and power engineering in Xi'an Jiaotong University in China in 1990 and M.S. and Ph.D. in thermal engineering at Xi'an Jiaotong University in 1996. He was an assistant professor (1996-1999), an associate professor (2000-2004), and a professor (2005-present) in the department of energy and power engineering in Xi'an Jiaotong University, China. He was a postdoctoral fellow during 1998-1999 in institute for energy technology in Norway. His specialization fields include waste treatment and utilization by supercritical water oxidation, hydrogen production by supercritical water gasification, multiphase flow and heat transfer, innovative technology for conventional energy conversion, and new energy. He was the member of New Century Excellent Talents of Ministry of Education, a distinguished professor of "Sanqin Scholar", and a leading talent in science and techno
