Verfügbarkeit: Introduction to biofuels

Introduction to biofuels:

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1. Verfasser:	Mousdale, David M. (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Boca Raton [u.a.] CRC Press 2010
Schriftenreihe:	Mechanical engineering series
Schlagworte:	Biomass energy Biokraftstoff
Online-Zugang:	Inhaltsverzeichnis Klappentext
Beschreibung:	XXVI, 429 S. graph. Darst.
ISBN:	1439812071 9781439812075

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Datensatz im Suchindex

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adam_text	Contents Preface ......................................................................................................................xv Acknowledgments ...................................................................................................xxi The Author ...........................................................................................................xxiii Units and Conversion Factors ................................................................................xxv Chapter 1 Ethanol as the Leading First-Generation Biofuel .............................1 1.1 Introduction ...............................................................................1 1.2 Historical Development of Ethanol as a Fuel from Neolithic Times to the Twentieth Century ................................1 1.3 Oil Supply and Oil Price in the Twentieth Century: Necessity and Alternative Fuel Programs .................................6 1.4 Case Study 1: Brazil and Sugarcane Ethanol ..........................10 1.5 Case Study 2: Starch-Based Ethanol in the United States ......18 1.6 Thermodynamic and Environmental Aspects of Ethanol as a Biofuel ..............................................................................31 1.6.1 Net Energy Balance ....................................................31 1.6.2 Effects on Emissions of Greenhouse Gases and Other Pollutants ...................................................37 1.7 Summary .................................................................................41 References ..........................................................................................41 Chapter 2 Cellulosic Ethanol as a Second-Generation Biofuel .......................45 2.1 Introduction .............................................................................45 2.2 Bioethanol and Cellulosic Ethanol: The Rise of Biomass-Based Biofuels ......................................................45 2.3 Structural and Industrial Chemistry of Cellulosic Biomass ....................................................................................46 2.3.1 Cellulose, Hemicelluloses, and Lignin .......................46 2.3.2 Lignocellulose as a Biochemical Resource ................51 2.3.3 Pretreatment of Lignocellulosic Materials .................53 2.3.3.1 Physical and Chemical Pretreatment of Lignocellulosic Biomass .........................53 2.3.3.2 Acid Hydrolysis of Pretreated Lignocellulosic Biomass .............................59 2.4 Cellulases: Biochemistry, Molecular Biology, and Biotechnology ...................................................................61 2.4.1 Enzymology of Cellulose Degradation by Cellulases ...............................................................61 2.4.2 Cellulases in Lignocellulosic Feedstock Processing .....65 VII viii Contents 2.4.3 Molecular Biology and Biotechnology of Cellulase Production ..............................................68 2.4.3.1 Physiological Regulation of Cellulase Production ...................................................68 2.4.3.2 Regulatory Genes Involved in Cellulase Production ...............................69 2.4.3.3 New-Generation Cellulases ........................70 2.4.3.4 Novel Molecular Features of Cellulases .....74 2.4.3.5 Immobilized Cellulases ..............................75 2.5 Hemicellulases: New Horizons in Energy Biotechnology ......75 2.5.1 A Multiplicity of Hemicellulases ...............................75 2.5.2 Hemicellulases in the Processing of Lignocellulosic Biomass ........................................78 2.5.3 Molecular Biology of Hemicellulases ........................79 2.5.4 Multifunctional Hemicellulases? ................................79 2.6 Lignin-Degrading Enzymes as Aids to Saccharification ........80 2.7 Commercial Choices of Cellulosic Feedstocks for Ethanol Production ............................................................81 2.8 Biotechnology and Platform Technologies for Cellulosic Ethanol .....................................................................................82 2.9 Summary .................................................................................83 References ..........................................................................................83 Chapters Microbiology of Cellulosic Ethanol Production I: Yeasts ..................91 3.1 Introduction .............................................................................91 3.2 Traditional Ethanologenic Yeasts ............................................91 3.2.1 Conventional Yeasts ...................................................92 3.2.2 Nonconventional Yeasts .............................................99 3.3 Metabolic Engineering of Yeasts for Cellulosic Ethanol ......100 3.3.1 Increased Pentose Utilization by Ethanologenic Yeasts by Genetic Manipulation with Yeast Genes for Xylose Metabolism via Xylitol .................100 3.3.2 Increased Pentose Utilization by Ethanologenic Yeasts by Genetic Manipulation with Genes for Xylose Isomerization ..........................................106 3.3.3 Engineering Arabinose Utilization by Ethanologenic Yeasts ...........................................107 3.3.4 Comparison of Industrial and Laboratory Yeast Strains for Ethanol Production .................................109 3.3.5 Improved Ethanol Production by Naturally Pentose-Utilizing Yeasts ..........................................115 3.4 Toward the Perfect Yeast Ethanologen? ................................116 3.4.1 Omic Analyses of Yeast Metabolism during Ethanol Production ...................................................117 3.4.2 Stress Responses in Yeast Ethanologens ..................120 Contents IX 3.5 Summary ...............................................................................121 References ........................................................................................122 Chapter 4 Microbiology of Cellulosic Ethanol Production II: Bacteria ...........131 4.1 Introduction ...........................................................................131 4.2 Assembling Gene Arrays in Bacteria for Ethanol Production ..............................................................................131 4.2.1 Metabolic Routes in Bacteria for Sugar Metabolism and Ethanol Formation .........................132 4.2.2 Genetic and Metabolic Engineering of Bacteria for Cellulosic Ethanol Production ............................135 4.2.2.1 Recombinant Escherichia coli: Lineages and Metabolic Capabilities ........135 4.2.2.2 Engineering Zymomonas mobilis for Xylose and Arabinose Metabolism ...........143 4.2.2.3 Development of Klebsiella Strains for Ethanol Production ...................................146 4.2.2.4 Other Bacterial Species ............................148 4.3 Thermophilic Species and Cellulosome Bioproduction Technologies ..........................................................................149 4.4 Designer Cells and Synthetic Organisms ..........................150 4.5 Summary ...............................................................................151 References ........................................................................................152 Chapters Biochemical Engineering of Cellulosic Ethanol ..............................159 5.1 Introduction ...........................................................................159 5.2 Case Study: The logen Corporation Process with Wheat Straw ......................................................................................159 5.3 Biomass Substrate Pretreatment Strategies ...........................162 5.3.1 Wheat Straw .............................................................163 5.3.2 Switchgrass...............................................................165 5.3.3 Corn Stover ...............................................................166 5.3.4 Softwoods .................................................................170 5.3.5 Sugarcane Bagasse ...................................................173 5.3.6 Other Large-Scale Agricultural and Forestry Biomass Feedstocks .................................................174 5.4 Fermentation Media and the Very High Gravity Concept .... 175 5.4.1 Fermentation Media for Ethanol Production ............ 176 5.4.2 High-Concentration Media Developed for Alcohol Fermentations ........................................177 5.5 Fermentor Design and Novel Fermentor Technologies .........182 5.5.1 Continuous Fermentations for Ethanol Production ................................................................182 5.5.2 Fed-Batch Fermentations .........................................187 Contents 5.5.3 Immobilized Yeast and Bacterial Cell Production Designs .....................................................................189 5.5.4 Contamination Events and Buildup in Fuel Ethanol Plants ...........................................................192 5.6 Simultaneous Saccharification and Fermentation and Consolidated Bioprocessing ...........................................192 5.7 Downstream Processing and By-Products ............................196 5.7.1 Ethanol Recovery from Fermented Broths ..............196 5.7.2 Continuous Ethanol Recovery from Fermentors ......198 5.7.3 Solid By-Products from Ethanol Fermentations ......199 5.8 Summary ...............................................................................202 References ........................................................................................203 Chapter 6 The Economics of Fuel Ethanol .......................................................217 6.1 Introduction ...........................................................................217 6.2 Market Forces and Incentives ................................................217 6.2.1 The Impact of Oil Prices on the Future of Biofuels after 1980...............................................217 6.2.2 Production Price, Taxation, and Incentives in the Market Economy ............................................218 6.3 Cost Models for Fuel Ethanol Production .............................221 6.3.1 Early Benchmarking Studies of Corn and Lignocellulosic Ethanol in the United States ...........222 6.3.1.1 Corn-Derived Ethanol in 1978..................222 6.3.1.2 Wheat-Straw-Derived Ethanol in 1978.....224 6.3.1.3 Fuel Ethanol from Sugarcane Molasses ... 226 6.3.1.4 Farm-Scale Ethanol Production ................226 6.3.2 Corn Ethanol in the 1980s: Rising Industrial Ethanol Prices and the Development of the Incentive Culture ......................................................228 6.3.3 Western Europe in the Mid-1980s: Assessments of Biofuels Programs Made at a Time of Falling Real Oil Prices .........................................................231 6.3.4 Brazilian Sugarcane Ethanol in 1985: After the First Decade of the PROALCOOL Program to Substitute for Imported Oil ......................................234 6.3.5 Economics of U.S. Corn and Biomass Ethanol Economics in the Mid-1990s....................................234 6.3.6 Case Study: The View from Sweden ........................236 6.3.7 Subsequent Assessments of Lignocellulosic Ethanol in Europe and the United States .................240 6.3.7.1 Complete Process Cost Models ................240 6.3.7.2 Reviews of Gray Literature Estimates and Economic Analyses ...........243 Contents 6.4 Pilot Plant and Industrial Extrapolations for Cellulosic Ethanol ...................................................................................245 6.4.1 Near-Future Projections for Cellulosic Ethanol Production Costs ......................................................245 6.4.2 Short- to Medium-Term Technical Process Improvements and Their Anticipated Economic Impacts .....................................................................246 6.4.3 Bioprocess Economics: A Chinese Perspective .......250 6.5 Governmental and Macroeconomic Factors .........................253 6.5.1 Mandatory Biofuels Targets .....................................253 6.5.2 Impact of Fuel Economy on Ethanol Demand for Gasoline Blends ..................................................257 6.5.3 Biofuels Pricing in the Era of Carbon Taxation .......258 6.6 Summary ...............................................................................259 References ........................................................................................260 Chapter 7 Advanced Biofuels: The Widening Portfolio of Alternatives to Ethanol .........................................................................................265 7.1 Introduction ...........................................................................265 7.2 Biobutanol and ABE ..............................................................265 7.3 Bacterial Production of C3-C7 Alcohols and Related Compounds ............................................................................268 7.4 Glycerol .................................................................................271 7.5 The MixAlco Process ............................................................272 7.6 Biohydrogen ...........................................................................273 7.6.1 The Hydrogen Economy and Fuel Cell Technologies .............................................................273 7.6.2 Bioproduction of Gases: Methane and H2 as Products of Anaerobic Digestion .............................276 7.6.2.1 Heterotrophic Microbes Producing H2 by Hydrogenase Activity ..........................277 7.6.2.2 Nitrogen-Fixing Microorganisms .............280 7.6.2.3 Development of Dark H2 Production Systems .....................................................281 7.6.3 Production of H2 by Photosynthetic Organisms .......284 7.7 Microbial Fuel Cells: Eliminating the Middlemen of Energy Carriers .................................................................291 7.8 Summary ...............................................................................293 References ........................................................................................293 Chapter 8 Chemically Produced Biofuels .........................................................301 8.1 Introduction ...........................................................................301 8.2 Biodiesel: Chemistry and Production Processes ...................301 8.2.1 Vegetable Oils and Chemically Processed Biofuels .....................................................................301 x¡¡ Contents 8.2.2 Biodiesel Composition and Production Processes ... 303 8.2.3 Biodiesel Economics ................................................308 8.2.4 Energetics of Biodiesel Production and Effects on Greenhouse Gas Emissions .................................311 8.2.5 Case Study 1: Hydrogenated Plant Oils and Green Diesel ...................................................315 8.2.6 Case Study 2: Enzymes for Biodiesel Production.... 316 8.3 Fischer-Tropsch Diesel: Chemical Biomass-Liquid Fuel Transformations .....................................................................318 8.3.1 The Renascence of an Old Chemistry for Biomass-Based Fuels? .........................................318 8.3.2 Economics and Environmental Impacts of FT Diesel ..............................................................320 8.4 Biodiesel from Microalgae and Microbes .............................322 8.4.1 Marine and Aquatic Biotechnology .........................322 8.4.2 Microdiesel ...............................................................325 8.5 Chemical Conversions of Glycerol Produced by Fermentation ..........................................................................326 8.6 Chemical Routes for the Production of Monooxygenated C6 Liquid Fuels from Biomass Carbohydrates .....................327 8.7 Biomethanol and Biodimethylether .......................................328 8.8 Chemistry and the Emergence of the Hydrogen Economy ...............................................................................330 8.9 Summary ...............................................................................333 References ........................................................................................334 Chapter 9 Sustainability of Biofuels Production ..............................................341 9.1 Introduction ...........................................................................341 9.2 Delivering Biomass Feedstocks for Cellulosic Ethanol Production: The Logistics of a New Industry .......................341 9.2.1 Upstream Factors: Biomass Collection and Delivery .............................................................344 9.2.2 Limitations Imposed by Land Availability and Land Use ............................................................346 9.3 Sustainable Development and Biomass Production ..............354 9.3.1 Definitions, Semantics, and Analysis .......................354 9.3.2 Case Study: Sustainability of Brazilian Sugarcane Ethanol ....................................................360 9.3.3 Future Horizons for Cane Sugar Ethanol .................365 9.4 Bioenergy Crops and Genetically Manipulated Plants .........367 9.4.1 Engineering Resistance Traits for Biotic and Abiotic Stresses .................................................368 9.4.2 Bioengineering Increased Crop Yield ......................369 Contents xiii 9.4.3 Optimizing Traits for Energy Crops Intended forBiofuel Production ..............................................371 9.4.4 Genetic Engineering of Dual-Use Food Plants and Dedicated Energy Crops ....................................374 9.5 Summary ...............................................................................376 References ........................................................................................377 Chapter 10 Biofuels as Products of Integrated Bioprocesses (Biorefineries) .....383 10.1 Introduction ...........................................................................383 10.2 The Biorefinery Concept .......................................................383 10.3 Biorefinery Entry Routes .......................................................386 10.3.1 Fermentation of Biomass-Derived Substrates ..........387 10.3.2 Biomass Gasification ................................................390 10.4 Biorefinery Pivotal Products .................................................392 10.4.1 Case Study 1: Succinic Acid ....................................395 10.4.2 Case Study 2: Xylitol and Rare Sugars as Fine Chemicals .................................................................400 10.4.3 Case Study 3: Glycerol .............................................403 10.5 Central Substrates and Biorefinery Flexibility ......................405 10.6 When Will the Biobased Economy Be Possible and When Will It Be Unavoidable? .......................................407 10.7 Summary ...............................................................................413 References ........................................................................................413 Index ......................................................................................................................421 Mechanical Engineering What role will biofuels play in the scientific portfolio that might bring energy independence and security, revitalize rural infrastructures, and wean us off of our addiction to oil? The shifting energy landscape of the 21st century, with its increased demand for renewable energy technology, poses a worrying intellectual challenge. Discussing the multidisciplinary study of bioenergy and its potential for replacing fossil fuels in the coming decades, Introduction to Biofuels provides a roadmap for understanding the broad sweep of technological, sociological, and energy policy issues that intermingle and intertwine. Copiously illustrated and with numerous examples, this book explores key technologies, including biotechnology, bioprocessing, and genetic reprogramming of microorganisms. The author examines the future of biofuels from a broader perspective, addressing the economic, social, and environmental issues crucial for studying the sustainable development of bioenergy. Each chapter begins with questions and provides the answers later in the chapter as key informational points. Embedded Science, Technology, Engineering, and Math (STEM) sections provide detailed derivations and equations for a subset of topics that can be found easily as buzzwords in popular media and on web sites. Together, the STEM topics form a thread of essential technologies and a guide to how researchers have established quantitative parameters that are crucial to the ever¬ growing biofuels database. With so much information scattered throughout the literature, it is often difficult to make sense of what is real and what is an optimistic selling of ideas with no scientific credibility. This book does an excellent job of filtering through volumes of data, providing a historical perspective on which to anchor the information, and outlining the strengths and constraints of the different biofuels. CRC Press Taylor & Francis Group an informa business www. с repress, com 6000 Broken Sound Parkway, NW Suite 300. Boca Raton, R 33487 270 Madison Avenue New York, NV 10016 2 Park Square, Milton Park Abingòon, Oxon OX14 4RN, UK К1ОДЗ? ISBN: 470-1-4340-1207-5 90000
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spelling	Mousdale, David M. Verfasser aut Introduction to biofuels David M. Mousdale Boca Raton [u.a.] CRC Press 2010 XXVI, 429 S. graph. Darst. txt rdacontent n rdamedia nc rdacarrier Mechanical engineering series Biomass energy Biokraftstoff (DE-588)4145658-0 gnd rswk-swf Biokraftstoff (DE-588)4145658-0 s DE-604 Digitalisierung UB Bayreuth application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=020594316&sequence=000003&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis Digitalisierung UB Bayreuth application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=020594316&sequence=000004&line_number=0002&func_code=DB_RECORDS&service_type=MEDIA Klappentext
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title	Introduction to biofuels
title_auth	Introduction to biofuels
title_exact_search	Introduction to biofuels
title_full	Introduction to biofuels David M. Mousdale
title_fullStr	Introduction to biofuels David M. Mousdale
title_full_unstemmed	Introduction to biofuels David M. Mousdale
title_short	Introduction to biofuels
title_sort	introduction to biofuels
topic	Biomass energy Biokraftstoff (DE-588)4145658-0 gnd
topic_facet	Biomass energy Biokraftstoff
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