A comprehensive account of modern catalytic technology
The First Edition of Catalytic Air Pollution Control: Commercial Technology, published in 1995, was met with great success by readers who appreciated the focused approach to real-world catalysis as applied to air pollution control technologies. Based on the five-star rating, extensive sales, and positive reviews, the authors have expanded and updated the original four parts and added additional chapters while retaining the practical description of the catalysts and processes in clear and simple language.
The first five chapters describe the fundamentals of catalysts and catalysis. Two new chapters have been added on the chemical and physical properties of monoliths, the support of choice for environmental applications. Included are chapters on fuel cells/ fuel processing and novel approaches for purifying ambient air. The current technologies for controlling emissions from mobile and stationary sources include:
Mobile sources
* Control of hydrocarbons, nitric oxides, carbon monoxide, and particulate emissions from gasoline and diesel fueled vehicles including passenger cars, trucks, buses, motorcycles, handheld tools, etc.
* Chemical and physical properties of monolithic substrates for automobile and diesel engines
* Decomposition of ozone that enters the cabin of wide-body aircraft
Stationary sources
* Catalytic conversion of emissions from gas turbines
* Organic compound abatement from chemical plants and restaurants
* Reduction of nitrogen oxides from stiochiometric, rich and lean burn engines, and zero emission catalytic combustion
Emerging technologies
* Description of the catalytic challenges for five different fuel cell technologies and hydrogen generation for fuel cell applications
* Ambient air cleanup from mobile and stationary sources
The book also contains an extensive bibliography with simplified descriptions of key parameters for compliance with worldwide regulations. The Second Edition of Catalytic Air Pollution Control promises to be an essential professional companion for all scientists and engineers including air pollution engineers, automotive engineers, chemists, chemical engineers working on emission control, and regulators.
Preface.
Preface to 2nd Edition.
Dedication.
Acknowledgements.
PART I: FUNDAMENTALS.
Catalyst Fundamentals.
The Preparation of Catalytic Materials: Carriers, Active Components and Monolithic Substrates.
Catalyst Characterization.
Monolithic Reactors for Environmental Catalysis.
Catalyst Deactivation.
PART II: MOBILE SOURCES.
Automotive Catalyst.
Automotive Catalyst Supports.
Diesel Engine Emissions.
Diesel Catalyst Supports.
Ozone Abatement within Jet Aircraft.
PART III: STATIONARY SOURCES.
Volatile Organic Compounds.
Reduction of NO_x.
Carbon Monoxide and Hydrocarbon Abatement from Gas Turbines.
PART IV: EMERGING TECHNOLOGIES.
Fuel Cells.
Ambient Air Cleanup.
Index.
The First Edition of Catalytic Air Pollution Control: Commercial Technology, published in 1995, was met with great success by readers who appreciated the focused approach to real-world catalysis as applied to air pollution control technologies. Based on the five-star rating, extensive sales, and positive reviews, the authors have expanded and updated the original four parts and added additional chapters while retaining the practical description of the catalysts and processes in clear and simple language.
The first five chapters describe the fundamentals of catalysts and catalysis. Two new chapters have been added on the chemical and physical properties of monoliths, the support of choice for environmental applications. Included are chapters on fuel cells/ fuel processing and novel approaches for purifying ambient air. The current technologies for controlling emissions from mobile and stationary sources include:
Mobile sources
* Control of hydrocarbons, nitric oxides, carbon monoxide, and particulate emissions from gasoline and diesel fueled vehicles including passenger cars, trucks, buses, motorcycles, handheld tools, etc.
* Chemical and physical properties of monolithic substrates for automobile and diesel engines
* Decomposition of ozone that enters the cabin of wide-body aircraft
Stationary sources
* Catalytic conversion of emissions from gas turbines
* Organic compound abatement from chemical plants and restaurants
* Reduction of nitrogen oxides from stiochiometric, rich and lean burn engines, and zero emission catalytic combustion
Emerging technologies
* Description of the catalytic challenges for five different fuel cell technologies and hydrogen generation for fuel cell applications
* Ambient air cleanup from mobile and stationary sources
The book also contains an extensive bibliography with simplified descriptions of key parameters for compliance with worldwide regulations. The Second Edition of Catalytic Air Pollution Control promises to be an essential professional companion for all scientists and engineers including air pollution engineers, automotive engineers, chemists, chemical engineers working on emission control, and regulators.
Preface.
Preface to 2nd Edition.
Dedication.
Acknowledgements.
PART I: FUNDAMENTALS.
Catalyst Fundamentals.
The Preparation of Catalytic Materials: Carriers, Active Components and Monolithic Substrates.
Catalyst Characterization.
Monolithic Reactors for Environmental Catalysis.
Catalyst Deactivation.
PART II: MOBILE SOURCES.
Automotive Catalyst.
Automotive Catalyst Supports.
Diesel Engine Emissions.
Diesel Catalyst Supports.
Ozone Abatement within Jet Aircraft.
PART III: STATIONARY SOURCES.
Volatile Organic Compounds.
Reduction of NO_x.
Carbon Monoxide and Hydrocarbon Abatement from Gas Turbines.
PART IV: EMERGING TECHNOLOGIES.
Fuel Cells.
Ambient Air Cleanup.
Index.