Verfügbarkeit: Introduction to renewable biomaterials

Introduction to renewable biomaterials: first principles and concepts

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Bibliographische Detailangaben
Weitere Verfasser:	Ayoub, Ali S. 1977- (HerausgeberIn), Lucia, Lucian A. (HerausgeberIn)
Format:	Elektronisch E-Book
Sprache:	English
Veröffentlicht:	Hoboken, NJ John Wiley & Sons 2018
Schlagworte:	TECHNOLOGY & ENGINEERING / Chemical & Biochemical / bisacsh Biomass / fast / (OCoLC)fst00832522 Renewable natural resources / fast / (OCoLC)fst01094603 Biomass Renewable natural resources
Online-Zugang:	FHA01 FRO01 TUM01 TUM01 UBG01 UBT01 Volltext Inhaltsverzeichnis
Beschreibung:	Includes bibliographical references and index
Beschreibung:	1 Online-Ressource
ISBN:	9781118698600 9781118698587 9781118698594

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Datensatz im Suchindex

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adam_text	Titel: Introduction to renewable biomaterials Autor: Ayoub, Ali S Jahr: 2018 Contents List of Contributors xiii Preface xv 1 Fundamental Biochemical and Biotechnological Principles of Biomass Growth and Use 1 Manfred Kircher 1.1 Learning Objectives 1 1.2 Comparison of Fossil-Based versus Bio-Based Raw Materials 2 1.2.1 The Nature of Fossil Raw Materials 2 1.2.2 Industrial Use 3 1.2.2.1 Energy 3 1.2.2.2 Chemicals 4 1.2.3 Expectancy of Resources 8 1.2.4 Green House Gas (GHG) Emission 8 1.2.5 Regional Pillars of Competitiveness 9 1.2.6 Questions for Further Consideration 11 1.3 The Nature of Bio-Based Raw Materials 11 1.3.1 Oil Crops 11 1.3.2 Sugar Crops 13 1.3.3 Starch Crops 14 1.3.4 Lignocellulosic Plants 15 1.3.5 Lignocellulosic Biomass 16 1.3.6 Algae 16 1.3.7 Plant Breeding 17 1.3.8 Basic Transformation Principles 17 1.3.8.1 First Generation 17 1.3.8.2 Second Generation 18 1.3.8.3 Third Generation 18 1.3.9 Industrial Use 18 1.3.9.1 Energy 18 1.3.9.2 Chemicals 20 1.3.9.3 Biocatalysts 22 1.3.9.4 Pharmaceuticals 23 1.3.9.5 Nutrition 24 1.3.9.6 Polymers 24 1.3.10 Expectancy of Resources 26 1.3.11 Green House Gas Emission 26 1.3.12 Regional Pillars of Competitiveness 27 1.3.13 Questions for Further Consideration 29 1.4 General Considerations Surrounding Bio-Based Raw Materials 29 1.4.1 Economical Challenges 29 1.4.2 Feedstock Demand Challenges 30 1.4.3 Ecological Considerations 31 1.4.4 Societal Considerations 31 1.4.4.1 Food Security 31 1.4.4.2 Public Acceptance 32 1.5 Research Advances Made Recently 32 1.5.1 First-Generation Processes and Products 32 1.5.2 Second-Generation Processes and Products 33 1.5.3 Third-Generation Processes and Products 33 1.6 Prominent Scientists Working in this Arena 34 1.7 Summary 35 1.8 Study Problems 35 1.9 Key References 36 References 36 2 Fundamental Science and Applications for Biomaterials 39 Ali S. Ayoub and Lucian A. Lucia 2.1 Introduction 39 2.2 What are the Biopolymers that Encompass the Structure and Function of Lignocellulosics? 39 2.2.1 Cellulose 40 2.2.2 Heteropolysaccharides 43 2.2.3 Lignin 45 2.2.4 The Discovery of Cellulose and Lignin 47 2.3 Chemical Reactivity of Cellulose, Heteropolysaccharides, and Lignin 48 2.3.1 Cellulose Reactivity 48 2.3.1.1 Reactivity Measurements 50 2.3.1.2 Dissolving-Grade Pulps 51 2.3.1.3 Converting Paper-Grade Pulps into Dissolving-Grade Pulps 51 2.3.2 Hemicellulose Reactivity 51 2.3.2.1 Structural Characterization of Hemicellulose 52 2.3.3 Lignin Reactivity 53 2.4 Composite as a Unique Application for Renewable Materials 53 2.4.1 Rationale and Significance 54 2.4.2 Starch-Based Materials 55 2.4.3 Starch-Based Plastics 56 2.4.3.1 Novamont 57 2.4.3.2 Cereplast 58 2.4.3.3 Ecobras 58 2.4.3.4 Biotec 58 2.4.3.5 Plantic 59 2.4.3.6 Biolice 59 2.4.3.7 KTM Industries 59 2.4.3.8 Cerestech, Inc. 59 2.4.3.9 Teknor Apex 60 2.5 Question for Further Consideration 60 References 60 3 Conversion Technologies 63 Maurycy Daroch 3.1 Learning Objectives 63 3.2 Energy Scenario at Global Level 63 3.2.1 Why Our Energy is so Important? 63 3.2.2 Black Treasure Chest 64 3.2.3 Conventional Fossil Resources and their Alternatives 66 3.2.3.1 Light Crude Oil (Conventional Oil) 66 3.2.3.2 Coal 66 3.2.3.3 Natural Gas 66 3.2.3.4 Shale Oil (Tight Oil) 67 3.2.3.5 Oil Sands, Bitumen Extra Heavy Oil 67 3.2.3.6 Shale Gas 67 3.2.3.7 Methane (Gas) Hydrates 67 3.2.3.8 EROI - How Much Fuel in Fuel? 68 3.2.3.9 Environmental Effects of Fossil Resource Utilisation 69 3.3 Biomass 71 3.3.1 Renewable Energy and Renewable Carbon 71 3.3.2 Why Different Types of Biomass have the Properties they Have? 73 3.4 Biomass Conversion Methods 75 3.4.1 Conversion of Biochemical Energy Perspective 75 3.4.2 Overview of Biomass Conversion Technologies 78 3.4.3 Thermochemical Conversion of Biomass 78 3.4.4 Biomass Combustion 80 3.4.5 Gasification 81 3.4.6 Pyrolysis 84 3.4.7 Conversion of Oily Feedstocks 86 3.4.8 Biochemical Conversion of Biomass 88 3.4.8.1 Aerobic and Anaerobic Metabolisms 88 3.4.8.2 Central Metabolic Pathway under Anaerobic Conditions 89 3.4.9 Harvesting Energy from Biochemical Processes 91 3.4.9.1 Ethanol Fermentation 91 3.4.9.2 ABE Fermentation 92 3.4.9.3 Biohydrogen 93 3.4.9.4 Biomethane 94 3.5 Metrics to Assist the Transition Towards Sustainable Production of Bioenergy and Biomaterials 95 3.5.1 EROI - Primary Metrics of Energy Carrier Efficiency 95 3.5.2 LCA - Sustainability Determinant 96 3.5.3 Environmental Assessment of Bioenergy Production Processes 97 3.5.3.1 Impacts Related to Land-Use Change 97 3.5.3.2 Impacts of Feedstock Cultivation 98 3.5.3.3 Impacts of Conversion Process 98 3.5.3.4 Impacts of Product Use 98 3.5.4 Sustainability Metrics in Biomass and Bioenergy Policies 99 3.5.5 Renewable and Non-Renewable Carbon - Taxation and Subsidies 99 3.6 Summary 102 3.7 Key References 102 References 103 4 Characterization Methods and Techniques 107 Noppadon Sathitsuksanoh and Scott Renneckar 4.1 Philosophy Statement 107 4.2 Understanding the Characteristics of Biomass 107 4.3 Taking Precautions Prior to Setting Up Experiments for Biomass Analysis 108 4.4 Classifying Biomass Sizes for Proper Analysis 109 4.5 Moisture Content of Biomass and Importance of Drying Samples Prior to Analysis 110 4.6 When the Carbon is Burned 111 4.7 Structural Cell Wall Analysis, What To Look For 112 4.8 Hydrolyzing Biomass and Determining Its Composition 114 4.8.1 Analyzing Filtrate by HPLC for Monosaccharide Contents 115 4.8.2 Choosing the HPLC Column and Its Operating Conditions 115 4.9 Determining Cell Wall Structures Through Spectroscopy and Scattering 116 4.9.1 Probing the Chemical Structure of Biomass 116 4.9.1.1 X-Ray Diffraction (XRD) 118 4.9.1.2 Cross-polarization/Magic Angle Spinning (CP/MAS) 13C NMR 119 4.9.1.3 Fourier-Transform Infrared Spectroscopy (FTIR) 121 4.9.1.4 Raman Analysis 122 4.10 Examining the Size of the Biopolymers: Molecular Weight Analysis 123 4.11 Intricacies of Understanding Lignin Structure 125 4.11.1 13C NMR 126 4.11.2 31P NMR 126 4.11.3 2D HSQC 128 4.11.4 Methoxyl Content Determination 132 4.11.4.1 1H NMR 132 4.11.4.2 Hydriodic Acid 132 4.11.4.3 Direct Methanol 132 4.12 Questions for Further Consideration 132 References 132 5 Introduction to Life-Cycle Assessment and Decision Making Applied to Forest Biomaterials 141 Jesse Daystar and Richard Venditti 5.1 Introduction 141 5.1.1 What is LCA? 141 5.1.1.1 History 142 5.1.2 LCA for Decision Making 142 5.1.2.1 Eco-labels 143 5.2 LCA Components Overview 144 5.2.1 Goal and Scope Definition 145 5.2.2 Inventory Analysis 145 5.2.3 Life-Cycle Impact Assessment 146 5.2.4 Interpretation 146 5.3 Life-Cycle Assessment Steps 146 5.3.1 Goal, Scope, System Boundaries 146 5.3.1.1 Goal Definition 146 5.3.1.2 Scope Definition 147 5.3.1.3 Functional Unit 148 5.3.1.4 Cutoff Criteria 148 5.3.1.5 Problems Set - Goal and Scope Definition 148 5.3.2 Life-Cycle Inventory 150 5.3.2.1 Preparation of Data Collection Based on Goal and Scope 151 5.3.2.2 Data Collection 152 5.3.2.3 Data Quality 155 5.3.2.4 Coproduct Treatment - Allocation 157 5.3.2.5 Relating Data to the Unit Process 158 5.3.2.6 Relating Data to the Functional Unit 159 5.3.2.7 Data Aggregation 159 5.3.2.8 LCI Data Interpretation 159 5.3.2.9 Problems Set - Life-Cycle Inventory 160 5.3.2.10 Mandatory Elements 166 5.3.2.11 Classification 168 5.3.2.12 Characterization 169 5.3.2.13 Optional Elements 170 5.3.2.14 Life Cycle Impact Assessment Interpretation 173 5.3.2.15 Problems Set-Life-Cycle Impact Assessment 173 5.4 LCA Tools for Forest Biomaterials 177 5.4.1 FICAT 177 5.4.2 GREET Model 178 References 178 6 First Principles of Pretreatment and Cracking Biomass to Fundamental Building Blocks 181 Amir Daraei Garmakhany and Somayeh Sheykhnazari 6.1 Introduction 181 6.1.1 What Is Lignocellulosic Material? 183 6.1.1.1 Lignocellulosic Materials 183 6.1.1.2 Cellulose 183 6.1.1.3 Hemicellulose 185 6.1.1.4 Lignin 187 6.2 What Difference Should Be Considered Between Wood and Agricultural Biomass? 189 6.2.1 Intrapolymeric Bonds 190 6.2.2 Polymeric Inter Bonds 190 6.2.3 Functional Groups and Chemical Characteristics of Lignocellulosic Biomass Components 191 6.2.4 Aromatic Ring 191 6.2.5 Hydroxyl Group 192 6.2.6 Ether Bond 192 6.2.7 Ester Bond 192 6.2.8 Hydrogen Bond 194 6.3 Define Pretreatment 194 6.3.1 What Is the Purpose of Pretreatment? 194 6.4 Steps of Production of Cellulosic Ethanol 195 6.4.1 Pretreatment 195 6.4.2 Hydrolysis 195 6.4.3 What Are the Inhibitors for Biomass Carbohydrate Hydrolysis? 195 6.4.4 Fermentation 196 6.4.5 Formation of Fermentation Inhibitors 196 6.4.6 Sugars Degradation Products 196 6.4.7 Lignin Degradation Products 197 6.4.8 Acetic Acid 197 6.4.9 Inhibitory Extractives 197 6.4.10 Heavy Metal Ions 197 6.4.11 Separation 197 6.5 What Are the Key Considerations for Making a Successful Pretreatment Technology? 198 6.5.1 Effect of Pretreatment on Hydrolysis Process 199 6.6 What Are the General Methods Used in Pretreatment? 199 6.7 What Is Currently Being Done and What Are the Advances? 200 6.7.1 Steam Explosion 201 6.7.2 Hydrothermolysis 204 6.7.3 High-Energy Irradiations 205 6.7.4 Acid Pretreatment 207 6.7.5 Mechanism of Acid Hydrolysis 208 6.7.6 Alkaline Pretreatment 208 6.7.7 Ammonia Pretreatment 210 6.7.8 Ammonia Recycle Percolation (ARP) 210 6.7.9 Ammonia Fiber Expansion (AFEX) 210 6.7.10 Defects of AFEX Process 210 6.7.11 Enzymatic Pretreatment 210 6.7.12 Advantages of Biological Pretreatment 211 6.7.13 Defects of Biological Pretreatment 211 6.8 Summary 211 References 212 7 Green Route to Prepare Renewable Polyesters from Monomers: Enzymatic Polymerization 219 Toufik Naolou 7.1 Philosophic Statement 219 7.2 Introduction 219 7.3 Lipase-Catalyzed Ring-Opening Polymerizations of Cyclic Monomeric Esters (Lactones and Lactides) 220 7.4 Lipase-Catalyzed Polycondensation 223 7.4.1 Dicarboxylic Acid or Its Esters with Diols 224 7.4.2 Dicarboxylic Acid or Its Esters with Polyols 225 7.4.3 Polyesters from Fatty Acid-Based Monomers 226 7.4.3.1 Lipase-Catalyzed Polycondensation of a, oo-Dicarboxylic Acids and Diols 226 7.4.3.2 Lipase-Catalyzed Polycondensation of Hydroxy Fatty Acids 227 7.4.3.3 Fatty Acids as Side Chains to Modify Functional Polyesters 228 7.4.4 Polyester Using Furan as Building Block 229 7.4.5 Conclusions and Remarks 230 7.4.6 Questions for Further Consideration 230 List of Abbreviations 230 References 231 8 Oil-Based and Bio-Derived Thermoplastic Polymer Blends and Composites 239 Alessia Quitadamo, Valerie Massardier and Marco Valente 8.1 Introduction 239 8.2 Oil-Based and Bio-Derived Thermoplastic Polymer Blends 240 8.2.1 Comparison Between Oil-Based and Bio-Derived Thermoplastic Polymers 240 8.2.2 Thermoplastics Blends 246 8.3 Thermoplastic Composites with Natural Fillers 252 8.3.1 Wood-Plastic Composites 254 8.3.2 Waste Paper as Filler in Thermoplastic Composites 260 8.4 Conclusion 263 8.5 Questions for Further Consideration 264 References 264 Index 269
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spelling	Introduction to renewable biomaterials first principles and concepts edited by Ali S. Ayoub and Lucian A. Lucia Hoboken, NJ John Wiley & Sons 2018 1 Online-Ressource txt rdacontent c rdamedia cr rdacarrier Includes bibliographical references and index TECHNOLOGY & ENGINEERING / Chemical & Biochemical / bisacsh Biomass / fast / (OCoLC)fst00832522 Renewable natural resources / fast / (OCoLC)fst01094603 Biomass Renewable natural resources Ayoub, Ali S. 1977- (DE-588)1147776962 edt Lucia, Lucian A. edt Erscheint auch als Druck-Ausgabe 978-1-119-96229-8 (DE-604)BV044718360 https://onlinelibrary.wiley.com/doi/book/10.1002/9781118698600 Verlag URL des Erstveröffentlichers Volltext HBZ Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=030055001&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Introduction to renewable biomaterials first principles and concepts TECHNOLOGY & ENGINEERING / Chemical & Biochemical / bisacsh Biomass / fast / (OCoLC)fst00832522 Renewable natural resources / fast / (OCoLC)fst01094603 Biomass Renewable natural resources
title	Introduction to renewable biomaterials first principles and concepts
title_auth	Introduction to renewable biomaterials first principles and concepts
title_exact_search	Introduction to renewable biomaterials first principles and concepts
title_full	Introduction to renewable biomaterials first principles and concepts edited by Ali S. Ayoub and Lucian A. Lucia
title_fullStr	Introduction to renewable biomaterials first principles and concepts edited by Ali S. Ayoub and Lucian A. Lucia
title_full_unstemmed	Introduction to renewable biomaterials first principles and concepts edited by Ali S. Ayoub and Lucian A. Lucia
title_short	Introduction to renewable biomaterials
title_sort	introduction to renewable biomaterials first principles and concepts
title_sub	first principles and concepts
topic	TECHNOLOGY & ENGINEERING / Chemical & Biochemical / bisacsh Biomass / fast / (OCoLC)fst00832522 Renewable natural resources / fast / (OCoLC)fst01094603 Biomass Renewable natural resources
topic_facet	TECHNOLOGY & ENGINEERING / Chemical & Biochemical / bisacsh Biomass / fast / (OCoLC)fst00832522 Renewable natural resources / fast / (OCoLC)fst01094603 Biomass Renewable natural resources
url	https://onlinelibrary.wiley.com/doi/book/10.1002/9781118698600 http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=030055001&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT ayoubalis introductiontorenewablebiomaterialsfirstprinciplesandconcepts AT lucialuciana introductiontorenewablebiomaterialsfirstprinciplesandconcepts

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