Title Details

ROBERT J. FARRAUTO, Research Fellow with Engelhard Corporation, is involved in all aspects of catalysis for the environmental, chemical, and petroleum industries. Dr. Farrauto is the author of seventy papers and recipient of fifty U.S. patents and served as North and South American editor of Applied Catalysis B: Environmental from 1995-2002. He is the recipient of the International Precious Metal Institute Henry Albert Award for excellence in precious metal catalysis (2000) and the Canadian Catalysis Society Award for excellence in catalysis (1999). He is currently an adjunct professor at Columbia University, New York City, in the Department of Earth and Environmental Engineering.

Acknowledgements.

Nomenclature.

Part One: Introduction and Fundamentals.

1 Catalysis: Introduction and Fundamental Catalytic Phenomena.

1.1 Emergence of Catalyst Technology, A Brief History.

1.2 Importance of Catalysis and Catalyst Technology.

1.3 Fundamental Catalytic Phenomena and Principles.

2 Catalyst Materials, Properties and Preparation.

2.1 Introduction.

2.2 Catalyst Materials.

2.3 Catalyst Properties.

2.4 Catalyst Preparation and Forming.

2.5 The Future.

3 Catalyst Characterization and Selection.

3.1 Principles and Objectives of Catalyst Characterization.

3.2 Determining Physical Properties of Catalysts.

3.3 Determining Chemical Properties of Catalysts.

3.4 Catalyst Selection.

4 Reactors, Reactor Design, and Activity Testing.

4.1 Definition and Classification of Reactors.

4.2 Fundamentals of Reactor Design.

4.3 Collecting, Analyzing and Reporting Data from Laboratory Reactors.

4.4 Choosing Reactors in the Laboratory and Plant.

5 Catalyst Deactivation: Causes, Mechanisms, and Treatment.

5.1 Introduction.

5.2 Causes and Mechanisms of Deactivation.

5.3 Prevention and Regenerative Treatment of Catalyst Decay.

5.4 Treatment of Catalyst Decay in Reactor and Process Design and Operation.

Part Two: Industrial Practice.

6 Hydrogen Production and Synthesis Gas Reactions.

6.1 Introduction.

6.2 Production of Hydrogen and Synthesis Gas via Steam Reforming.

6.3 Ammonia Synthesis.

6.4 Methanol Synthesis.

6.5 Fischer-Tropsch Synthesis.

7 Hydrogenation and Dehydrogenation of Organic Compounds.

7.1 Introduction.

7.2 Hydrogenation Catalyst and Reactor Technologies.

7.3 Hydrogenation Reactions and Processes.

7.4 Dehydrogenation: Reaction Chemistry; Catalyst and Reactor Technologies.

7.5 Important Dehydrogenation Reactions and Processes.

8 Catalytic Oxidations of Inorganic and Organic Compounds.

8.1 Catalytic Oxidation Reactions.

8.2 Oxidation of Inorganic Compounds,

8.3 Hydrogen Cyanide Production (Ammoxidation of Methane).

8.4 Selective (Partial) Oxidation of Organic Compounds.

8.5 Future of Catalytic Oxidation.

9 Petroleum Refining and Processing.

9.1 Petroleum Refining.

9.2 Hydrotreating.

9.3 Catalytic Cracking.

9.4 Hydrocracking.

9.5 Naphtha Reforming.

9.6 Isomerization.

9.7 Alkylation.

9.8 Reformulated Gasoline and Methyl-t-Butyl Ether.

10 Environmental Catalysis: Mobile Sources.

10.1 Introduction

10.2 Automotive Gasoline Catalytic Converters.

10.3 Catalytic Abatement of Emissions from Diesel Engines.

10.4 Ozone Abatement in High-Flying Commercial Aircraft.

11 Environmental Catalysis: Stationary Sources.

11.1 Introduction.

11.2 Catalytic Reduction of NOx

11.3 Catalytic Oxidation of Hydrocarbon (VOC) Emissions

11.4 Catalytic Oxidation of CO Emissions

11.5 Kinetics of and Reactor Design for CO and VOC Oxidations.

11.6 Catalytic Abatement of Emissions from Wood Stoves.

12 Homogeneous, Enzyme, And Polymerization Catalysis.

12.1 Homogeneous Catalysis.

12.2 Enzyme Catalysis.

12.3 Polymerization Catalysis.

13 Hydrogen Production and Fuel Cells: Catalyst Technology.

13.1 Introduction, Perspective, and Objectives

13.2 Production of Hydrogen for Fuel cells.

13.3 The Proton Exchange Membrane (PEM) Fuel Cell.

13.4 Other Fuel Cells.

Glossary 939

Index 954

"Comprehensive, clear, well-written and well-illustrated are a few of the terms that I must use to describe this monumental work. In addition, copious use of appropriately sized diagrams and tables are used as well as plethora of references." (Journal of Hazardous Materials, April 2008)

"..it is extremely informative about heterogeneous catalysis..." (Angewandte Chemie International Edition, January 2008)

"This is a fine introduction to, and reference for, industrial catalysis." (The Catalyst, September 2007)