Verfügbarkeit: Advances in bio-fuel production /

Advances in bio-fuel production /:

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Bibliographische Detailangaben
Weitere Verfasser:	Kumar, Anil, 1954- (HerausgeberIn), Garg, Sarika (HerausgeberIn)
Format:	Elektronisch E-Book
Sprache:	English
Veröffentlicht:	Hauppauge, New York : Nova Science Publishers, Inc., [2019]
Schriftenreihe:	Renewable energy : research, development and policies
Schlagworte:	Biomass energy. Bioénergie. TECHNOLOGY & ENGINEERING > Chemical & Biochemical. Biomass energy
Online-Zugang:	Volltext
Beschreibung:	1 online resource
Bibliographie:	Includes bibliographical references and index.
ISBN:	9781536146721 1536146722

Internformat

MARC


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245	0	0	\|a Advances in bio-fuel production / \|c editors, Anil Kumar, School of Biotechnology, Devi Ahilya University, Indore, India and Sarika Garg, Director, Science Planet Inc., Canada.
264		1	\|a Hauppauge, New York : \|b Nova Science Publishers, Inc., \|c [2019]
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504			\|a Includes bibliographical references and index.
588	0		\|a Print version record and CIP data provided by publisher.
505	0		\|a Intro; Contents; Preface; Acknowledgements; Chapter 1; Introduction to Biofuels Production; Abstract; Introduction; Acknowledgments; References; Websites; Chapter 2; Importance of Cellulosic Bioethanol and Pre-Treatment Methods for Separating Lignin from Lignocellulosic Biomass; Abstract; 2.1. Introduction; 2.2. Methods of Pretreatment; 2.2.1. Physical Pretreatment; 2.2.1.1. Mechanical Extrusion; 2.2.1.1.1. Procedure 1; 2.2.1.1.2. Procedure 2; 2.2.1.1.3. Procedure 3; 2.2.1.1.4. Procedure 4; 2.2.1.1.5. Procedure 5; 2.2.2. Chemical Pretreatment; 2.2.2.1. Procedure 1; 2.2.2.2. Procedure 2
505	8		\|a 2.2.2.3. Procedure 32.2.2.4. Procedure 4; 2.2.2.5. Procedure 5; 2.2.2.6. Procedure 6; 2.2.2.7. Procedure 7; 2.2.2.8. Procedure 8; 2.2.2.9. Procedure 9; 2.2.2.10. Procedure 10; 2.2.3. Thermochemical Pretreatment; 2.2.3.1. Procedure 1; 2.2.3.2. Procedure 2; 2.2.3.3. Procedure 3; 2.2.3.4. Procedure 4; 2.2.3.5. Procedure 5; 2.2.4. Ionic Liquid Fractionation; 2.2.4.1. Procedure 1; 2.2.4.2. Procedure 2; 2.2.4.3. Procedure 3; 2.2.4.4. Procedure 4; 2.2.4.5. Procedure 5; 2.2.5. Biological Pretreatment; 2.2.5.1. Procedure 1; 2.2.5.2. Procedure 2; 2.2.5.3. Procedure 3; 2.2.5.4. Procedure 4
505	8		\|a 2.2.6. Co-Solvent FractionationConclusion; Acknowledgments; References; Chapter 3; Hexose Fermentation for Ethanol Production; Abstract; 3.1. Introduction; 3.2. Glucose Utilization in the Metabolic Pathways; 3.3. Micro-Organisms Involved in Hexose Fermentation; 3.4. Ethanol Fermentation; 3.5. Lactic Acid Fermentation; 3.6. Heterolactate Fermentation; 3.7. Butanol/Butyric Acid Fermentation; 3.8. Formic Acid Fermentation; 3.9. Butanediol Fermentation; 3.10. Mixed Acids Fermentation; 3.11. Propionic Acid Fermentation; Conclusion; Acknowledgments; References; Chapter 4
505	8		\|a Biofuel Production from Pentose SugarsAbstract; 1. Introduction; 2. Pentose Sugars; 3. Sources of Pentose Sugars; 4. Pre-Treatment of Hemicelluloses; 4.1. Dilute Acid; 4.2. Alkali; 4.3. Sulfur Dioxide (SO2); 4.4. Hydrogen Peroxide; 4.5. Steam Explosion; 4.6. Ammonia Fiber Explosion (AFEX); 4.7. Wet Oxidation; 4.8. Lime; 4.9. Liquid Hot Water; 4.10. CO2/ Freeze Explosion; 5. Bioconversion of Pentose Sugars into Ethanol; 6. Biofuel from D-Xylose; 7. Biofuel from Arabinose; 8. Pentose Fermenting Microorganisms; 9. Filamentous Fungi; 10. Bacteria; 11. Yeasts; 12. Strain Improvement; 13. Mutation
505	8		\|a 14. Protoplast Fusion15. Genetic Engineering; Conclusion; References; Chapter 5; Genetic and Metabolic Engineering of Microbes for Efficient Lignocellulosic Ethanol; Abstract; 5.1. Introduction; 5.2. LCB as Substrate for Biofuel Production- Benefits, and Challenges; 5.3. Potential Ethenologenic Microoganisms; 5.4. Strategies to Improve Xylose Utilization for Ethanol Production; 5.4.1. Non-Targeted Engineering; 5.4.1.1. Evolutionary Engineering; 5.4.1.2. Enhancement of Xylose Uptake; 5.4.1.3. Enhancement of Stress Tolerance; 5.4.1.4. Strain Hybridization; 5.4.1.4.1. Protoplast Fusion
650		0	\|a Biomass energy. \|0 http://id.loc.gov/authorities/subjects/sh85014231
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700	1		\|a Kumar, Anil, \|d 1954- \|e editor. \|0 http://id.loc.gov/authorities/names/nb2001066372
700	1		\|a Garg, Sarika, \|e editor.
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contents	Intro; Contents; Preface; Acknowledgements; Chapter 1; Introduction to Biofuels Production; Abstract; Introduction; Acknowledgments; References; Websites; Chapter 2; Importance of Cellulosic Bioethanol and Pre-Treatment Methods for Separating Lignin from Lignocellulosic Biomass; Abstract; 2.1. Introduction; 2.2. Methods of Pretreatment; 2.2.1. Physical Pretreatment; 2.2.1.1. Mechanical Extrusion; 2.2.1.1.1. Procedure 1; 2.2.1.1.2. Procedure 2; 2.2.1.1.3. Procedure 3; 2.2.1.1.4. Procedure 4; 2.2.1.1.5. Procedure 5; 2.2.2. Chemical Pretreatment; 2.2.2.1. Procedure 1; 2.2.2.2. Procedure 2 2.2.2.3. Procedure 32.2.2.4. Procedure 4; 2.2.2.5. Procedure 5; 2.2.2.6. Procedure 6; 2.2.2.7. Procedure 7; 2.2.2.8. Procedure 8; 2.2.2.9. Procedure 9; 2.2.2.10. Procedure 10; 2.2.3. Thermochemical Pretreatment; 2.2.3.1. Procedure 1; 2.2.3.2. Procedure 2; 2.2.3.3. Procedure 3; 2.2.3.4. Procedure 4; 2.2.3.5. Procedure 5; 2.2.4. Ionic Liquid Fractionation; 2.2.4.1. Procedure 1; 2.2.4.2. Procedure 2; 2.2.4.3. Procedure 3; 2.2.4.4. Procedure 4; 2.2.4.5. Procedure 5; 2.2.5. Biological Pretreatment; 2.2.5.1. Procedure 1; 2.2.5.2. Procedure 2; 2.2.5.3. Procedure 3; 2.2.5.4. Procedure 4 2.2.6. Co-Solvent FractionationConclusion; Acknowledgments; References; Chapter 3; Hexose Fermentation for Ethanol Production; Abstract; 3.1. Introduction; 3.2. Glucose Utilization in the Metabolic Pathways; 3.3. Micro-Organisms Involved in Hexose Fermentation; 3.4. Ethanol Fermentation; 3.5. Lactic Acid Fermentation; 3.6. Heterolactate Fermentation; 3.7. Butanol/Butyric Acid Fermentation; 3.8. Formic Acid Fermentation; 3.9. Butanediol Fermentation; 3.10. Mixed Acids Fermentation; 3.11. Propionic Acid Fermentation; Conclusion; Acknowledgments; References; Chapter 4 Biofuel Production from Pentose SugarsAbstract; 1. Introduction; 2. Pentose Sugars; 3. Sources of Pentose Sugars; 4. Pre-Treatment of Hemicelluloses; 4.1. Dilute Acid; 4.2. Alkali; 4.3. Sulfur Dioxide (SO2); 4.4. Hydrogen Peroxide; 4.5. Steam Explosion; 4.6. Ammonia Fiber Explosion (AFEX); 4.7. Wet Oxidation; 4.8. Lime; 4.9. Liquid Hot Water; 4.10. CO2/ Freeze Explosion; 5. Bioconversion of Pentose Sugars into Ethanol; 6. Biofuel from D-Xylose; 7. Biofuel from Arabinose; 8. Pentose Fermenting Microorganisms; 9. Filamentous Fungi; 10. Bacteria; 11. Yeasts; 12. Strain Improvement; 13. Mutation 14. Protoplast Fusion15. Genetic Engineering; Conclusion; References; Chapter 5; Genetic and Metabolic Engineering of Microbes for Efficient Lignocellulosic Ethanol; Abstract; 5.1. Introduction; 5.2. LCB as Substrate for Biofuel Production- Benefits, and Challenges; 5.3. Potential Ethenologenic Microoganisms; 5.4. Strategies to Improve Xylose Utilization for Ethanol Production; 5.4.1. Non-Targeted Engineering; 5.4.1.1. Evolutionary Engineering; 5.4.1.2. Enhancement of Xylose Uptake; 5.4.1.3. Enhancement of Stress Tolerance; 5.4.1.4. Strain Hybridization; 5.4.1.4.1. Protoplast Fusion
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series2	Renewable energy : research, development and policies
spelling	Advances in bio-fuel production / editors, Anil Kumar, School of Biotechnology, Devi Ahilya University, Indore, India and Sarika Garg, Director, Science Planet Inc., Canada. Hauppauge, New York : Nova Science Publishers, Inc., [2019] 1 online resource text txt rdacontent computer n rdamedia online resource nc rdacarrier Renewable energy : research, development and policies Includes bibliographical references and index. Print version record and CIP data provided by publisher. Intro; Contents; Preface; Acknowledgements; Chapter 1; Introduction to Biofuels Production; Abstract; Introduction; Acknowledgments; References; Websites; Chapter 2; Importance of Cellulosic Bioethanol and Pre-Treatment Methods for Separating Lignin from Lignocellulosic Biomass; Abstract; 2.1. Introduction; 2.2. Methods of Pretreatment; 2.2.1. Physical Pretreatment; 2.2.1.1. Mechanical Extrusion; 2.2.1.1.1. Procedure 1; 2.2.1.1.2. Procedure 2; 2.2.1.1.3. Procedure 3; 2.2.1.1.4. Procedure 4; 2.2.1.1.5. Procedure 5; 2.2.2. Chemical Pretreatment; 2.2.2.1. Procedure 1; 2.2.2.2. Procedure 2 2.2.2.3. Procedure 32.2.2.4. Procedure 4; 2.2.2.5. Procedure 5; 2.2.2.6. Procedure 6; 2.2.2.7. Procedure 7; 2.2.2.8. Procedure 8; 2.2.2.9. Procedure 9; 2.2.2.10. Procedure 10; 2.2.3. Thermochemical Pretreatment; 2.2.3.1. Procedure 1; 2.2.3.2. Procedure 2; 2.2.3.3. Procedure 3; 2.2.3.4. Procedure 4; 2.2.3.5. Procedure 5; 2.2.4. Ionic Liquid Fractionation; 2.2.4.1. Procedure 1; 2.2.4.2. Procedure 2; 2.2.4.3. Procedure 3; 2.2.4.4. Procedure 4; 2.2.4.5. Procedure 5; 2.2.5. Biological Pretreatment; 2.2.5.1. Procedure 1; 2.2.5.2. Procedure 2; 2.2.5.3. Procedure 3; 2.2.5.4. Procedure 4 2.2.6. Co-Solvent FractionationConclusion; Acknowledgments; References; Chapter 3; Hexose Fermentation for Ethanol Production; Abstract; 3.1. Introduction; 3.2. Glucose Utilization in the Metabolic Pathways; 3.3. Micro-Organisms Involved in Hexose Fermentation; 3.4. Ethanol Fermentation; 3.5. Lactic Acid Fermentation; 3.6. Heterolactate Fermentation; 3.7. Butanol/Butyric Acid Fermentation; 3.8. Formic Acid Fermentation; 3.9. Butanediol Fermentation; 3.10. Mixed Acids Fermentation; 3.11. Propionic Acid Fermentation; Conclusion; Acknowledgments; References; Chapter 4 Biofuel Production from Pentose SugarsAbstract; 1. Introduction; 2. Pentose Sugars; 3. Sources of Pentose Sugars; 4. Pre-Treatment of Hemicelluloses; 4.1. Dilute Acid; 4.2. Alkali; 4.3. Sulfur Dioxide (SO2); 4.4. Hydrogen Peroxide; 4.5. Steam Explosion; 4.6. Ammonia Fiber Explosion (AFEX); 4.7. Wet Oxidation; 4.8. Lime; 4.9. Liquid Hot Water; 4.10. CO2/ Freeze Explosion; 5. Bioconversion of Pentose Sugars into Ethanol; 6. Biofuel from D-Xylose; 7. Biofuel from Arabinose; 8. Pentose Fermenting Microorganisms; 9. Filamentous Fungi; 10. Bacteria; 11. Yeasts; 12. Strain Improvement; 13. Mutation 14. Protoplast Fusion15. Genetic Engineering; Conclusion; References; Chapter 5; Genetic and Metabolic Engineering of Microbes for Efficient Lignocellulosic Ethanol; Abstract; 5.1. Introduction; 5.2. LCB as Substrate for Biofuel Production- Benefits, and Challenges; 5.3. Potential Ethenologenic Microoganisms; 5.4. Strategies to Improve Xylose Utilization for Ethanol Production; 5.4.1. Non-Targeted Engineering; 5.4.1.1. Evolutionary Engineering; 5.4.1.2. Enhancement of Xylose Uptake; 5.4.1.3. Enhancement of Stress Tolerance; 5.4.1.4. Strain Hybridization; 5.4.1.4.1. Protoplast Fusion Biomass energy. http://id.loc.gov/authorities/subjects/sh85014231 Bioénergie. TECHNOLOGY & ENGINEERING Chemical & Biochemical. bisacsh Biomass energy fast Kumar, Anil, 1954- editor. http://id.loc.gov/authorities/names/nb2001066372 Garg, Sarika, editor. has work: Advances in bio-fuel production (Text) https://id.oclc.org/worldcat/entity/E39PCFYDXbhvKvfHxjRgQfDg8C https://id.oclc.org/worldcat/ontology/hasWork Print version: Advances in bio-fuel production. Hauppauge, New York, USA : Nova Science Publishers, Inc., [2019] 9781536146714 (DLC) 2018050889 FWS01 ZDB-4-EBA FWS_PDA_EBA https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=2024804 Volltext
spellingShingle	Advances in bio-fuel production / Intro; Contents; Preface; Acknowledgements; Chapter 1; Introduction to Biofuels Production; Abstract; Introduction; Acknowledgments; References; Websites; Chapter 2; Importance of Cellulosic Bioethanol and Pre-Treatment Methods for Separating Lignin from Lignocellulosic Biomass; Abstract; 2.1. Introduction; 2.2. Methods of Pretreatment; 2.2.1. Physical Pretreatment; 2.2.1.1. Mechanical Extrusion; 2.2.1.1.1. Procedure 1; 2.2.1.1.2. Procedure 2; 2.2.1.1.3. Procedure 3; 2.2.1.1.4. Procedure 4; 2.2.1.1.5. Procedure 5; 2.2.2. Chemical Pretreatment; 2.2.2.1. Procedure 1; 2.2.2.2. Procedure 2 2.2.2.3. Procedure 32.2.2.4. Procedure 4; 2.2.2.5. Procedure 5; 2.2.2.6. Procedure 6; 2.2.2.7. Procedure 7; 2.2.2.8. Procedure 8; 2.2.2.9. Procedure 9; 2.2.2.10. Procedure 10; 2.2.3. Thermochemical Pretreatment; 2.2.3.1. Procedure 1; 2.2.3.2. Procedure 2; 2.2.3.3. Procedure 3; 2.2.3.4. Procedure 4; 2.2.3.5. Procedure 5; 2.2.4. Ionic Liquid Fractionation; 2.2.4.1. Procedure 1; 2.2.4.2. Procedure 2; 2.2.4.3. Procedure 3; 2.2.4.4. Procedure 4; 2.2.4.5. Procedure 5; 2.2.5. Biological Pretreatment; 2.2.5.1. Procedure 1; 2.2.5.2. Procedure 2; 2.2.5.3. Procedure 3; 2.2.5.4. Procedure 4 2.2.6. Co-Solvent FractionationConclusion; Acknowledgments; References; Chapter 3; Hexose Fermentation for Ethanol Production; Abstract; 3.1. Introduction; 3.2. Glucose Utilization in the Metabolic Pathways; 3.3. Micro-Organisms Involved in Hexose Fermentation; 3.4. Ethanol Fermentation; 3.5. Lactic Acid Fermentation; 3.6. Heterolactate Fermentation; 3.7. Butanol/Butyric Acid Fermentation; 3.8. Formic Acid Fermentation; 3.9. Butanediol Fermentation; 3.10. Mixed Acids Fermentation; 3.11. Propionic Acid Fermentation; Conclusion; Acknowledgments; References; Chapter 4 Biofuel Production from Pentose SugarsAbstract; 1. Introduction; 2. Pentose Sugars; 3. Sources of Pentose Sugars; 4. Pre-Treatment of Hemicelluloses; 4.1. Dilute Acid; 4.2. Alkali; 4.3. Sulfur Dioxide (SO2); 4.4. Hydrogen Peroxide; 4.5. Steam Explosion; 4.6. Ammonia Fiber Explosion (AFEX); 4.7. Wet Oxidation; 4.8. Lime; 4.9. Liquid Hot Water; 4.10. CO2/ Freeze Explosion; 5. Bioconversion of Pentose Sugars into Ethanol; 6. Biofuel from D-Xylose; 7. Biofuel from Arabinose; 8. Pentose Fermenting Microorganisms; 9. Filamentous Fungi; 10. Bacteria; 11. Yeasts; 12. Strain Improvement; 13. Mutation 14. Protoplast Fusion15. Genetic Engineering; Conclusion; References; Chapter 5; Genetic and Metabolic Engineering of Microbes for Efficient Lignocellulosic Ethanol; Abstract; 5.1. Introduction; 5.2. LCB as Substrate for Biofuel Production- Benefits, and Challenges; 5.3. Potential Ethenologenic Microoganisms; 5.4. Strategies to Improve Xylose Utilization for Ethanol Production; 5.4.1. Non-Targeted Engineering; 5.4.1.1. Evolutionary Engineering; 5.4.1.2. Enhancement of Xylose Uptake; 5.4.1.3. Enhancement of Stress Tolerance; 5.4.1.4. Strain Hybridization; 5.4.1.4.1. Protoplast Fusion Biomass energy. http://id.loc.gov/authorities/subjects/sh85014231 Bioénergie. TECHNOLOGY & ENGINEERING Chemical & Biochemical. bisacsh Biomass energy fast
subject_GND	http://id.loc.gov/authorities/subjects/sh85014231
title	Advances in bio-fuel production /
title_auth	Advances in bio-fuel production /
title_exact_search	Advances in bio-fuel production /
title_full	Advances in bio-fuel production / editors, Anil Kumar, School of Biotechnology, Devi Ahilya University, Indore, India and Sarika Garg, Director, Science Planet Inc., Canada.
title_fullStr	Advances in bio-fuel production / editors, Anil Kumar, School of Biotechnology, Devi Ahilya University, Indore, India and Sarika Garg, Director, Science Planet Inc., Canada.
title_full_unstemmed	Advances in bio-fuel production / editors, Anil Kumar, School of Biotechnology, Devi Ahilya University, Indore, India and Sarika Garg, Director, Science Planet Inc., Canada.
title_short	Advances in bio-fuel production /
title_sort	advances in bio fuel production
topic	Biomass energy. http://id.loc.gov/authorities/subjects/sh85014231 Bioénergie. TECHNOLOGY & ENGINEERING Chemical & Biochemical. bisacsh Biomass energy fast
topic_facet	Biomass energy. Bioénergie. TECHNOLOGY & ENGINEERING Chemical & Biochemical. Biomass energy
url	https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=2024804
work_keys_str_mv	AT kumaranil advancesinbiofuelproduction AT gargsarika advancesinbiofuelproduction

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