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Delivers the insight and data that will enable researchers and professional chemical engineers to increase process efficiency, yield or selectivity

Table of Contents

Chapter 1 Introduction

Chapter 2 Hydrogenation Processes

Chapter 3 Catalytic Oxidation and Reduction of Gases

Chapter 4 Partial Oxidation and Dehydrogenation of Hydrocarbons

Chapter 5 Combustion Systems

Chapter 6 Automotive Exhaust Catalysis

Chapter 7 Polymerization Processes

Chapter 8 Catalytic Fluid-Solid Reactions

Chapter 9 Electrochemical Systems

Chapter 10 Biochemical Reactions and Processes

Chapter 11 Miscellaneous Reactions

Chapter 12 Multiple Reactions

Chapter 13 Use of Modulation in Mechanism Studies

Chapter 14 Theoretical Prediction of Reactor Performance

Chapter 15 Pressure Modulation

Chapter 16 Temperature Modulation

Chapter 17 Flow Modulation in 3 Phase Reactors

Chapter 18 Flow Direction Switching

Chapter 19 Control of Modulation System

Chapter 20 Discontinuous Moving Bed Chromatographic Reactors

Chapter 21 Simulated Moving Bed Chromatographic Reactors

Chapter 22 Pressure and Temperature Swing Reactors

Chapter 23 Research and Development Challenges

About the Author

Peter L. Silveston is a Distinguished Professor Emeritus at the University of Waterloo in Canada. Professor Silveston has authored or co-authored three previous books on reactor engineering topics as well as close to 300 research publications. He is a graduate of M.I.T. and the Technical University of Munich (Germany). Robert Hudgins is a Professor Emeritus at the University of Waterloo. His research interests are reactor engineering, specifically periodic operation of catalytic reactors, and he has about 250 research publications. He is a graduate of the University of Toronto and Princeton University.