Photo-catalytic Control Technologies of Flue Gas Pollutants: Energy and Environment Research in China
Autor Jiang Wu, Jianxing Ren, Weiguo Pan, Ping Lu, Yongfeng Qien Limba Engleză Hardback – 4 oct 2018
The book also describes how a photocatalytic reactor is designed and implemented to evaluate the photocatalytic oxidation capacity of different photocatalysts on elemental mercury in a simulated flue gas. After that, the effect of photocatalysts on the SO2, NOx and Hg removal in the flue gas is studied. Photocatalytic cleaning technology can be applied not only in gas pollutant cleaning at power plants, but also in wastewater purification.
Readers gain a comprehensive understanding of possible mercury emission control methods and the industrial applications of these technologies.
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Specificații
ISBN-13: 9789811087486
ISBN-10: 9811087482
Pagini: 182
Ilustrații: IX, 153 p. 69 illus., 62 illus. in color.
Dimensiuni: 155 x 235 x 16 mm
Greutate: 0.41 kg
Ediția:1st ed. 2019
Editura: Springer Nature Singapore
Colecția Springer
Seria Energy and Environment Research in China
Locul publicării:Singapore, Singapore
ISBN-10: 9811087482
Pagini: 182
Ilustrații: IX, 153 p. 69 illus., 62 illus. in color.
Dimensiuni: 155 x 235 x 16 mm
Greutate: 0.41 kg
Ediția:1st ed. 2019
Editura: Springer Nature Singapore
Colecția Springer
Seria Energy and Environment Research in China
Locul publicării:Singapore, Singapore
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Cuprins
Preparation and characterization of photocatalyst.- Study on kinetics of photocatalytic.- Photocatalyst.- Design of photocatalytic reactor.- Photocatalytic Denitrification In Flue Gas.- The Photocatalytic Removal of Mercury From Coal-fired Flue Gas.- The Photocatalytic Technology For Wastewater Treatment.
Notă biografică
Jiang Wu is the vice dean, the school of energy and environmental engineering, Shanghai University of Electric Power. He has worked in the field of pollution emission controls for nearly 20 years, and studied in the field of SO2, NOx and Hg emission measurement and controls for more than 10 years, and in the field of photo catalytic for more than 8 years. He published more than 50 journal papers and 30 proceedings.
Jianxing Ren achieved his Ph.D. degree in thermal engineering from Zhejiang University in 1993, and worked as JSPS scholar in Waseda University, Japan. He is working in the school of energy and environmental engineering, Shanghai University of Electric Power. His research interests include combustion and pollution emission controls, distributed energy resources and energy system security. He has worked in the field of pollution emission controls for almost 30 years, and published more than 60 journal papers and proceedings.
Weiguo Pan got his Ph.D. degree in thermal engineering from Zhejiang University in 1997, and since that he has been working in the school of energy and environmental engineering, Shanghai University of Electric Power for more than 20 years. His main research interest is coal combustion and its pollution emission controls, and published more than 30 journal papers and 20 proceedings.Ping Lu got his B.S. in material processing engineering in 1990 and M.S. in silicate engineering in 1993 from Nanjing University of Technology, and got his Ph.D. in thermo-energy engineering in 2002 from Southeast University, China. He is full professor and the dean, School of Energy & Mechanical Engineering, Nanjing Normal University. He has worked in the field of combustion and its emissions control, biomass thermo-chemical conversion, and multiphase fluid dynamics and modeling for more than 20 years, and studied in the field of NOx and Hg emission controls for around 10 years. Yongfeng Qi achieved his Ph.D. degree from Shanghai Jiao Tong University in 2009, and currently he works as an associate professor in department of thermal energy engineering, school of hydraulic energy and power engineering, Yangzhou University. His main research areas include combustion mechanisms of coal and biomass, biomass gasification, and catalyzer for selective catalytic reduction.
Jianxing Ren achieved his Ph.D. degree in thermal engineering from Zhejiang University in 1993, and worked as JSPS scholar in Waseda University, Japan. He is working in the school of energy and environmental engineering, Shanghai University of Electric Power. His research interests include combustion and pollution emission controls, distributed energy resources and energy system security. He has worked in the field of pollution emission controls for almost 30 years, and published more than 60 journal papers and proceedings.
Weiguo Pan got his Ph.D. degree in thermal engineering from Zhejiang University in 1997, and since that he has been working in the school of energy and environmental engineering, Shanghai University of Electric Power for more than 20 years. His main research interest is coal combustion and its pollution emission controls, and published more than 30 journal papers and 20 proceedings.Ping Lu got his B.S. in material processing engineering in 1990 and M.S. in silicate engineering in 1993 from Nanjing University of Technology, and got his Ph.D. in thermo-energy engineering in 2002 from Southeast University, China. He is full professor and the dean, School of Energy & Mechanical Engineering, Nanjing Normal University. He has worked in the field of combustion and its emissions control, biomass thermo-chemical conversion, and multiphase fluid dynamics and modeling for more than 20 years, and studied in the field of NOx and Hg emission controls for around 10 years. Yongfeng Qi achieved his Ph.D. degree from Shanghai Jiao Tong University in 2009, and currently he works as an associate professor in department of thermal energy engineering, school of hydraulic energy and power engineering, Yangzhou University. His main research areas include combustion mechanisms of coal and biomass, biomass gasification, and catalyzer for selective catalytic reduction.
Textul de pe ultima copertă
This book introduces the theory and applications of nanometer photocatalysis, and it briefly presents the concept of photocatalysts, photocatalytic reaction mechanisms and kinetics, and photocatalytic reactor design. In addition, the use of photocatalysis in the control of flue-gas pollutants is discussed in detail.
The book also describes how a photocatalytic reactor is designed and implemented to evaluate the photocatalytic oxidation capacity of different photocatalysts on elemental mercury in a simulated flue gas. After that, the effect of photocatalysts on the SO2, NOx and Hg removal in the flue gas is studied. Photocatalytic cleaning technology can be applied not only in gas pollutant cleaning at power plants, but also in wastewater purification.
Readers gain a comprehensive understanding of possible mercury emission control methods and the industrial applications of these technologies.
The book also describes how a photocatalytic reactor is designed and implemented to evaluate the photocatalytic oxidation capacity of different photocatalysts on elemental mercury in a simulated flue gas. After that, the effect of photocatalysts on the SO2, NOx and Hg removal in the flue gas is studied. Photocatalytic cleaning technology can be applied not only in gas pollutant cleaning at power plants, but also in wastewater purification.
Readers gain a comprehensive understanding of possible mercury emission control methods and the industrial applications of these technologies.
Caracteristici
Offers a comprehensive introduction to TiO2-, ZnO-, BiVO4-based photocatalysts as well as their metal/nonmetal modification and morphology controlled synthesis Studies the effects on adsorption, catalytic and photocatalytic kinetics of the different photocatalysts under various flue-gas atmospheres Describes the design of a novel photocatalytic reactor and studies conducted on it, as well as their findings Presents graphene-supported photocatalysts along with experimental studies