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New and future developments in catalysis : catalytic biomass conversion /

New and Future Developments in Catalysis is a package of books that compile the latest ideas concerning alternate and renewable energy sources and the role that catalysis plays in converting new renewable feedstock into biofuels and biochemicals. Both homogeneous and heterogeneous catalysts and cata...

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Detalles Bibliográficos
Clasificación:	Libro Electrónico
Otros Autores:	Suib, Steven L., 1953-
Formato:	Electrónico eBook
Idioma:	Inglés
Publicado:	Amsterdam : Elsevier Ltd., 2013.
Colección:	New and future developments in catalysis.
Temas:	Biomass conversion. Catalysis. Catalysis Biomasse > Conversion. Catalyse. TECHNOLOGY & ENGINEERING > Chemical & Biochemical. Biokonversion Katalyse
Acceso en línea:	Texto completo

Tabla de Contenidos:

Machine generated contents note: 1.1. Introduction / Pierre Gallezot
1.2. Hydrogenation Catalysts / Pierre Gallezot
1.3. Metal Catalysts for Dehydroxylation and Hydrogenolysis Reactions / Pierre Gallezot
1.4. Metal Catalysts for the Oxidation of Carbohydrates and Derivatives / Pierre Gallezot
1.5. Concluding Remarks and Prospects / Pierre Gallezot
Acknowledgment / Pierre Gallezot
References / Pierre Gallezot
2.1. Introduction / Hirokazu Kobayashi / Atsushi Fukuoka
2.2. Gasification of Cellulose / Hirokazu Kobayashi / Atsushi Fukuoka
2.3. Hydrolytic Hydrogenation of Cellulose / Hirokazu Kobayashi / Atsushi Fukuoka
2.4. Conversion of Cellulose to C2 and C3 Chemicals / Hirokazu Kobayashi / Atsushi Fukuoka
2.5. Hydrolysis of Cellulose to Glucose / Hirokazu Kobayashi / Atsushi Fukuoka
2.6. One-Pot Synthesis of Other Chemicals from Cellulose / Hirokazu Kobayashi / Atsushi Fukuoka
2.7. Degradation of Lignin to Chemicals / Hirokazu Kobayashi / Atsushi Fukuoka
2.8. Conclusions / Hirokazu Kobayashi / Atsushi Fukuoka
References / Hirokazu Kobayashi / Atsushi Fukuoka
3.1. Introduction / Z. Conrad Zhang
3.2. Conversion of Fructose to 5-HMF / Z. Conrad Zhang
3.3. Conversion of Glucose to 5-HMF / Z. Conrad Zhang
3.4. Conversion of Cellulose to 5-HMF / Z. Conrad Zhang
3.5. Conversion of C-6 and C-5 Carbohydrates in Biomass to 5-HMF and Furfural / Z. Conrad Zhang
3.6. Summary and Prospective / Z. Conrad Zhang
References / Z. Conrad Zhang
4.1. Introduction / Christian M�arup Osmundsen / Kresten Egeblad / Esben Taarning
4.2. Hydrogenolysis / Christian M�arup Osmundsen / Kresten Egeblad / Esben Taarning
4.3. Sugars to Lactates / Christian M�arup Osmundsen / Kresten Egeblad / Esben Taarning
4.4. Utilization of the Lignin Fraction / Christian M�arup Osmundsen / Kresten Egeblad / Esben Taarning
References / Christian M�arup Osmundsen / Kresten Egeblad / Esben Taarning
5.1. Introduction / B. Kamm / M. Gerhardt / G. Dautzenberg
5.2. Lignocellulosic Feedstock as Raw Material for Comprehensive Levulinic Acid and Furfural Production / B. Kamm / M. Gerhardt / G. Dautzenberg
5.3. Levulinic Acid, Formic Acid, and Furfural / B. Kamm / M. Gerhardt / G. Dautzenberg
5.4. Fuels and Fuel Components from Levulinic Acid and Furfural / B. Kamm / M. Gerhardt / G. Dautzenberg
5.5. Conclusion / B. Kamm / M. Gerhardt / G. Dautzenberg
References / B. Kamm / M. Gerhardt / G. Dautzenberg
6.1. Introduction / Christopher E. French / Damian K. Barnard / Eugene Fletcher / Steven D. Kane / Sahreena Saleem Lakhundi / Chao-Kuo Liu / Alistair Elfick
6.2. The Biomass Problem / Christopher E. French / Damian K. Barnard / Eugene Fletcher / Steven D. Kane / Sahreena Saleem Lakhundi / Chao-Kuo Liu / Alistair Elfick
6.3. Biological Production of Renewable Fuels from Cellulosic Biomass / Christopher E. French / Damian K. Barnard / Eugene Fletcher / Steven D. Kane / Sahreena Saleem Lakhundi / Chao-Kuo Liu / Alistair Elfick
6.4. Synthetic Biology / Christopher E. French / Damian K. Barnard / Eugene Fletcher / Steven D. Kane / Sahreena Saleem Lakhundi / Chao-Kuo Liu / Alistair Elfick
6.5. Biomass Degradation / Christopher E. French / Damian K. Barnard / Eugene Fletcher / Steven D. Kane / Sahreena Saleem Lakhundi / Chao-Kuo Liu / Alistair Elfick
6.6."Advanced" Biofuels / Christopher E. French / Damian K. Barnard / Eugene Fletcher / Steven D. Kane / Sahreena Saleem Lakhundi / Chao-Kuo Liu / Alistair Elfick
6.7. Increasing Tolerance to Inhibitory Compounds / Christopher E. French / Damian K. Barnard / Eugene Fletcher / Steven D. Kane / Sahreena Saleem Lakhundi / Chao-Kuo Liu / Alistair Elfick
6.8. The Way Forward / Christopher E. French / Damian K. Barnard / Eugene Fletcher / Steven D. Kane / Sahreena Saleem Lakhundi / Chao-Kuo Liu / Alistair Elfick
6.9. Conclusions / Christopher E. French / Damian K. Barnard / Eugene Fletcher / Steven D. Kane / Sahreena Saleem Lakhundi / Chao-Kuo Liu / Alistair Elfick
Acknowledgments / Christopher E. French / Damian K. Barnard / Eugene Fletcher / Steven D. Kane / Sahreena Saleem Lakhundi / Chao-Kuo Liu / Alistair Elfick
References / Christopher E. French / Damian K. Barnard / Eugene Fletcher / Steven D. Kane / Sahreena Saleem Lakhundi / Chao-Kuo Liu / Alistair Elfick
7.1. Introduction / Albert P. Kausch / Adam Deresienski / Joel Hague / Michael Tilelli / Stephen L. Dellaporta / Kimberly Nelson / Yi Li
7.2. Current Conventional Hybrid Plant Breeding Schemes / Albert P. Kausch / Adam Deresienski / Joel Hague / Michael Tilelli / Stephen L. Dellaporta / Kimberly Nelson / Yi Li
7.3. Novel Non-GM and GM Approaches to Hybrid Plant Development / Albert P. Kausch / Adam Deresienski / Joel Hague / Michael Tilelli / Stephen L. Dellaporta / Kimberly Nelson / Yi Li
7.4. Gene Confinement Strategies for Release of GM Improved Bioenergy Crops / Albert P. Kausch / Adam Deresienski / Joel Hague / Michael Tilelli / Stephen L. Dellaporta / Kimberly Nelson / Yi Li
7.5. Conclusions / Albert P. Kausch / Adam Deresienski / Joel Hague / Michael Tilelli / Stephen L. Dellaporta / Kimberly Nelson / Yi Li
Acknowledgments / Albert P. Kausch / Adam Deresienski / Joel Hague / Michael Tilelli / Stephen L. Dellaporta / Kimberly Nelson / Yi Li
References / Albert P. Kausch / Adam Deresienski / Joel Hague / Michael Tilelli / Stephen L. Dellaporta / Kimberly Nelson / Yi Li
8.1. Classification of Pyrolysis Processes / Li Li / Jack S. Rowbotham / H. Christopher Greenwell / Philip W. Dyer
8.2. Pyrolysis Reactor Design / Li Li / Jack S. Rowbotham / H. Christopher Greenwell / Philip W. Dyer
8.3. Pyrolysis Products / Li Li / Jack S. Rowbotham / H. Christopher Greenwell / Philip W. Dyer
8.4. The Major Components of Biomass / Li Li / Jack S. Rowbotham / H. Christopher Greenwell / Philip W. Dyer
8.5. Mechanisms of Biomass Pyrolysis / Li Li / Jack S. Rowbotham / H. Christopher Greenwell / Philip W. Dyer
8.6. Catalytic Pyrolysis of Biomass / Li Li / Jack S. Rowbotham / H. Christopher Greenwell / Philip W. Dyer
8.7. Concluding Remarks / Li Li / Jack S. Rowbotham / H. Christopher Greenwell / Philip W. Dyer
References / Li Li / Jack S. Rowbotham / H. Christopher Greenwell / Philip W. Dyer
9.1. Introduction / Miri Koberg / Aharon Gedanken
9.2. Transesterification Reaction for Biodiesel Production / Miri Koberg / Aharon Gedanken
9.3. Factors Affecting Catalytic Process for Biodiesel Production / Miri Koberg / Aharon Gedanken
9.4. Two-Stage Method for Biodiesel Production / Miri Koberg / Aharon Gedanken
9.5. One-Stage Method for Biodiesel Production / Miri Koberg / Aharon Gedanken
9.6. Analysis of the FAME Produced from Different Feed-Stocks / Miri Koberg / Aharon Gedanken
9.7. Conclusions / Miri Koberg / Aharon Gedanken.
Note continued: Acknowledgments / Aharon Gedanken / Miri Koberg
References / Aharon Gedanken / Miri Koberg
10.1. Introduction / Bobban Subhadra
10.2. Advantages of Using Algal Biomass for Biofuel / Bobban Subhadra
10.3. Algae as Source of Biofuel / Bobban Subhadra
10.4. Recent Research and Developments in Algal Biofuel / Bobban Subhadra
10.5. Algal Biorefinery / Bobban Subhadra
10.6. General Conclusions / Bobban Subhadra
References / Bobban Subhadra
11.1. Zeolites / Steven L. Suib / Chung-Hao Kuo / Lei Jin
11.2. Mesoporous Materials / Steven L. Suib / Chung-Hao Kuo / Lei Jin
11.3. Metal Oxides / Chung-Hao Kuo / Steven L. Suib / Lei Jin
11.4. Basic Rare Earth Layered Materials for Biodiesel Production / Steven L. Suib / Chung-Hao Kuo / Lei Jin
11.5. Supported Metals and Ion-Exchanged Resins / Lei Jin / Steven L. Suib / Chung-Hao Kuo
11.6. Outlook / Chung-Hao Kuo / Steven L. Suib / Lei Jin
References / Steven L. Suib / Chung-Hao Kuo / Lei Jin
12.1. Introduction / Richard S. Parnas / Michael Pomykala / Iman Noshadi
12.2. Sources and Properties of Various Biomass / Richard S. Parnas / Michael Pomykala / Iman Noshadi
12.3. Current Catalysts for Biomass Conversion / Michael Pomykala / Richard S. Parnas / Iman Noshadi
12.4. Current Catalytic Processes for Biomass Conversion / Michael Pomykala / Richard S. Parnas / Iman Noshadi
12.5. Environmental Concerns for Biomass Conversion / Richard S. Parnas / Michael Pomykala / Iman Noshadi
Acknowledgment / Richard S. Parnas / Michael Pomykala / Iman Noshadi
References / Iman Noshadi / Richard S. Parnas / Michael Pomykala
13.1. Introduction / Fred V. Carstensen / Marcello Graziano / Natalia Vorotytseva / William E. Waite / Kathryn E. Parr
13.2. Overview / Fred V. Carstensen / Marcello Graziano / Natalia Vorotytseva / William E. Waite / Kathryn E. Parr
13.3. Case Study: Food Scraps and Anaerobic Digestion in the Hartford Metropolitan Statistical Area / Fred V. Carstensen / Marcello Graziano / Natalia Vorotytseva / William E. Waite / Kathryn E. Parr
13.4. Spatial Analysis: Methods and Results / Fred V. Carstensen / Marcello Graziano / Natalia Vorotytseva / William E. Waite / Kathryn E. Parr
13.5. Economic and Financial Performance: Methods and Results / Fred V. Carstensen / Marcello Graziano / Natalia Vorotytseva / William E. Waite / Kathryn E. Parr
13.6. Conclusions / Fred V. Carstensen / Marcello Graziano / Natalia Vorotytseva / William E. Waite / Kathryn E. Parr
Acknowledgments / Fred V. Carstensen / Marcello Graziano / Natalia Vorotytseva / William E. Waite / Kathryn E. Parr
References / Fred V. Carstensen / Marcello Graziano / Natalia Vorotytseva / William E. Waite / Kathryn E. Parr
14.1. Introduction / Arnold L. Demain / Marco A. B�aez-V�asquez
14.2. Biofuels / Arnold L. Demain / Marco A. B�aez-V�asquez
14.3. The Energy Problem / Arnold L. Demain / Marco A. B�aez-V�asquez
14.4. Bioethanol as Fuel / Arnold L. Demain / Marco A. B�aez-V�asquez
14.5. Lignocellulosic Biomass / Arnold L. Demain / Marco A. B�aez-V�asquez
14.6. Unlocking Fermentable Sugars from Cellulosic Biomass / Arnold L. Demain / Marco A. B�aez-V�asq
14.7. Requirement of the Fungal Cellulase Complex / Arnold L. Demain / Marco A. B�aez-V�asquez
14.8. Ethanol-Producing Organisms / Arnold L. Demain / Marco A. B�aez-V�asquez
14.9. Higher Alcohols / Arnold L. Demain / Marco A. B�aez-V�asquez
14.10. Biodiesel / Arnold L. Demain / Marco A. B�aez-V�asquez
14.11. Other Potential Biofuels / Arnold L. Demain / Marco A. B�aez-V�asquez
14.12.Commercial Developments / Arnold L. Demain / Marco A. B�aez-V�asquez
14.13. US Government Initiatives / Arnold L. Demain / Marco A. B�aez-V�asquez
14.14. Final Comments / Arnold L. Demain / Marco A. B�aez-V�asquez
Acknowledgment / Arnold L. Demain / Marco A. B�aez-V�asquez
References / Arnold L. Demain / Marco A. B�aez-V�asquez
15.1. Introduction / Subhash Bhatia / Siti Salwa Hashim
15.2. Sugar Platform / Subhash Bhatia / Siti Salwa Hashim
15.3. Biodiesel / Subhash Bhatia / Siti Salwa Hashim
15.4. Bio-Oil and its Upgrading / Subhash Bhatia / Siti Salwa Hashim
15.5. Future Developments in Catalysis for Biomass Conversion / Subhash Bhatia / Siti Salwa Hashim
15.6. Conclusions / Subhash Bhatia / Siti Salwa Hashim
References / Subhash Bhatia / Siti Salwa Hashim.

New and future developments in catalysis : catalytic biomass conversion /

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