Heterogeneous Catalysis for Sustainable Energy

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Explore the state-of-the-art in heterogeneous catalysis
 
In Heterogeneous Catalysis for Sustainable Energy, a team of distinguished researchers delivers a comprehensive and cutting-edge treatment of recent advancements in energy-related catalytic reactions and processes in the field of heterogeneous catalysis. The book includes extensive coverage of the hydrogen economy, methane activation, methanol-to-hydrocarbons, carbon dioxide conversion, and biomass conversion methane activation.
 
The authors explore different aspects of the technology, like reaction mechanisms, catalyst synthesis, and the commercial status of the reactions. The book also includes:
 
* A thorough introduction to the hydrogen economy, including hydrogen production, the reforming of oxygen-containing chemicals, and advances in Fischer-Tropsch Synthesis
* Comprehensive explorations of methane activation, including steam and dry reforming of methane and methane activation over zeolite catalysts
* Practical discussions of alkane activation, including cracking of hydrocarbons to light olefins and catalytic dehydrogenation of light alkanes
In-depth examinations of zeolite catalysis and carbon dioxide as C1 building block
 
Perfect for catalytic, physical, and surface chemists, Heterogeneous Catalysis for Sustainable Energy also belongs in the libraries of materials scientists with an interest in energy-related reactions and processes in the field of heterogeneous catalysis.

Table des matières

Part I: Hydrogen Economy
1 Catalytic Hydrogen Production
2 Catalytic Reforming of Oxygen-Containing Chemicals
3 Advances in Fischer-Tropsch Synthesis for the Production of Fuels and Chemicals
Part II: Methane Activation
4 Steam and Dry Reforming of Methane
5 Methane Activation over Zeolites
6 Selective Oxidation of Methane to Oxygenates using Heterogeneous Catalysts
Part III: Alkane Activation
7 Catalytic Cracking over Solid Acids
8 Catalytic Dehydrogenation of Light Alkanes
Part IV: Zeolite Catalysis
9 Zeolites for Sustainable Chemical Transformations
10 Methanol-to-hydrocarbons
Part V: Carbon Dioxide as C1 Building Block
11 Overview on CO2 Emission and Capture
12 CO2 Reduction to Fuel and Chemicals
Part VI: Biomass Conversion
13 Lipids to Fuels and Chemicals
14 Lignin Upgrading
 

A propos de l'auteur

Landong Li is Professor in the School of Materials Science and Engineering at Nankai University, China. After his PhD from Nankai University, he started his research in environmental catalysis at Research Center for Eco-environmental Sciences, Chinese Academy of Sciences, China. In 2009, he moved back to Nankai University, where he was promoted to full professor in 2014. His research interest focuses on heterogeneous catalysis, with emphasize on energy and environmental applications. He received the National Science Fund for Excellent Young Scholars in 2017. He has published more than 100 scientific publications and invented 20 patents in catalysis.
 
Justin Hargreaves is currently Professor of Catalytic Materials Chemistry at the University of Glasgow, UK. He obtained his undergraduate degree in Chemistry at the University of Liverpool, UK in 1987 which was followed by his PhD, also from the University of Liverpool, in 1990. His current research interests include N2 activation, metal oxide, carbide, nitride, phosphide and boride catalysts, zeolite catalysis, alkane activation and the application of large scale wastes as resources for the preparation of catalytic materials.

Résumé

Explore the state-of-the-art in heterogeneous catalysis
 
In Heterogeneous Catalysis for Sustainable Energy, a team of distinguished researchers delivers a comprehensive and cutting-edge treatment of recent advancements in energy-related catalytic reactions and processes in the field of heterogeneous catalysis. The book includes extensive coverage of the hydrogen economy, methane activation, methanol-to-hydrocarbons, carbon dioxide conversion, and biomass conversion methane activation.
 
The authors explore different aspects of the technology, like reaction mechanisms, catalyst synthesis, and the commercial status of the reactions. The book also includes:
 
* A thorough introduction to the hydrogen economy, including hydrogen production, the reforming of oxygen-containing chemicals, and advances in Fischer-Tropsch Synthesis
* Comprehensive explorations of methane activation, including steam and dry reforming of methane and methane activation over zeolite catalysts
* Practical discussions of alkane activation, including cracking of hydrocarbons to light olefins and catalytic dehydrogenation of light alkanes
In-depth examinations of zeolite catalysis and carbon dioxide as C1 building block
 
Perfect for catalytic, physical, and surface chemists, Heterogeneous Catalysis for Sustainable Energy also belongs in the libraries of materials scientists with an interest in energy-related reactions and processes in the field of heterogeneous catalysis.