Plant biomass derived materials sources, extractions, and applications

Plant biomass derived materials sources, extractions, and applications

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Weitere Verfasser: Jose, Seiko (HerausgeberIn), Thomas, Sabu 1960- (HerausgeberIn), Samant, Lata (HerausgeberIn), Mathew, Sneha Sabu (HerausgeberIn)
Format: Buch
Sprache:English
Veröffentlicht: Weinheim Wiley-VCH [2024]
Schlagworte:
Ausgangsmaterial
Bioraffinerie
Wertstoff
Biomasse
Werkstoff
Pflanzlicher Rohstoff
Chemikalie
Bioenergieerzeugung
Biotechnologie i. d. Biowissenschaften
Biotechnology
Biowissenschaften
Chemie
Chemistry
Industrial Chemistry
Life Sciences
Nachhaltige u. Grüne Chemie
Sustainable Chemistry & Green Chemistry
Technische u. Industrielle Chemie
CH30: Technische u. Industrielle Chemie
CHC0: Nachhaltige u. Grüne Chemie
LS35: Biotechnologie i. d. Biowissenschaften
Biotechnologie
Online-Zugang:http://www.wiley-vch.de/publish/dt/books/ISBN978-3-527-35076-6/
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MARC

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Datensatz im Suchindex

_version_ 1820155839206391808
adam_text CONTENTS PREFACE XIX 1 BIOMASS - AN ENVIRONMENTAL CONCERN 1 DEEPAK S. KHOBRAGADE 1.1 INTRODUCTION 1 1.2 BIOMASS AS AN ENERGY SOURCE 4 1.3 THE ENVIRONMENTAL CONCERN OF BIOMASS 6 1.4 AIR POLLUTION 7 1.4.1 GASEOUS EMISSIONS 7 1.4.2 DUST 7 1.4.3 BIOMASS ASH (BOTTOM ASH) 7 1.4.4 FLYASH 8 1.4.5 CARBON MONOXIDE POISONING 8 1.5 WATER USE AND WATER POLLUTION 8 1.6 IMPACT ON SOIL 9 1.7 INDOOR POLLUTION 11 1.8 DEFORESTATION AND LAND DEGRADATION 11 1.9 HEALTH HAZARDS 11 1.10 NON-RESPIRATORY ILLNESS 11 1.10.1 IN CHILDREN 11 1.10.1.1 LOWER BIRTH WEIGHT 11 1.10.1.2 NUTRITIONAL DEFICIENCY 12 1.10.2 RESPIRATORY ILLNESS IN ADULTS 12 1.10.2.1 INTERSTITIAL LUNG DISEASE 12 1.10.2.2 CHRONIC OBSTRUCTIVE PULMONARY DISEASE (COPD) 12 1.10.2.3 TUBERCULOSIS 12 1.10.2.4 LUNG CANCER 12 1.10.3 NON-RESPIRATORY ILLNESS IN ADULTS 13 1.10.3.1 CARDIOVASCULAR DISEASE 13 1.10.3.2 CATARACTS 13 1.11 SAFE DISPOSAL OF BIOMASS 13 1.12 THE BIOECONOMY OF THE BIOMASS UTILIZATION 15 VI CONTENTS 1.13 1.14 BIOWASTE-DERIVED FUNCTIONAL MATERIALS 15 CONCLUSION 16 REFERENCES 17 2 CHEMISTRY OF BIOMASS 23 WAGNER M. CAVALINI, BRENO M. JOIA, DIEGO E. R. GONZAGA, ROGERIO MARCHIOSI, OSVALDO FERRARESE-FILHO, AND DOS SANTOS, WANDERLEY D. 2.1 2.2 2.3 2.3.1 2.3.2 2.3.3 2.4 2.4.1 2.4.1.1 2.4.1.2 2.5 2.5.1 2.6 2.6.1 2.6.2 2.6.3 2.6.3.1 2.6.3.2 2.7 2.7.1 2.7.2 2.7.3 2.8 INTRODUCTION 23 CELLULOSE 25 HEMICELLULOSE 26 XYLANS 27 MANNANS 27 ARABINOGALACTANS 28 PECTIN 28 HOMOGALACTURONAN 29 RHAMNOGALACTURONAN I 29 RHAMNOGALACTURONAN II 29 LIGNIN 30 LIGNIN VALORIZATION 31 RESERVE COMPOUNDS 31 STARCH 31 SUCROSE 32 LIPIDS 33 FATTY ACIDS 33 TRIACYLGLYCEROLS 34 NATURAL COMPOUNDS (SECONDARY METABOLITES) 34 TERPENOIDS 35 PHENYLPROPANOIDS 35 ALKALOIDS 36 CONCLUSION 36 REFERENCES 37 3 LIGNIN FROM BIOMASS - SOURCES, EXTRACTION, AND APPLICATION 43 IRWAN KURNIA, SURACHAI KARNJANAKOM, AND GUOQING GUAN 3.1 3.2 3.2.1 3.2.1.1 3.2.1.2 3.2.2 3.2.2.1 3.2.2.2 3.2.3 3.2.3.1 SOURCES 43 EXTRACTION 45 ALKALINE PROCESS 47 SULFUR PROCESSES 47 SULFUR-FREE PROCESSES 48 ACIDIC PROCESS 48 CONCENTRATED ACID PROCESS (KLASON PROCESS) 49 DILUTE ACID PROCESS 49 SOLVENT-ASSISTED EXTRACTION PROCESSES 49 ORGANOSOLV PROCESS 49 3.2.3.2 3.2.3.3 3.2.3.4 3.2.3.5 3.2.4 3.2.4.1 3.2.4.2 3.2.5 3.3 3.3.1 3.3.1.1 3.3.1.2 3.4 ALDEHYDE-ASSISTED PROCESS 49 GVL-ASSISTED PROCESS 50 IONIC LIQUID PROCESS 50 DEEP EUTECTIC SOLVENTS PROCESS 51 PHYSICAL-ASSISTED EXTRACTION PROCESSES 51 MILLED-WOOD PROCESS 51 MICROWAVE-ASSISTED PROCESS 51 ENZYMATIC PROCESS 52 APPLICATION 53 LIGNIN-DERIVED NANOMATERIALS 53 BIOMEDICAL MATERIALS 54 ENERGY STORAGE MATERIALS 55 SUMMARY AND OUTLOOK 57 ACKNOWLEDGMENTS 57 REFERENCES 58 4 STARCH FROM BIOMASS - SOURCES, EXTRACTION, AND APPLICATION 63 ABDELAZIZ AMIR, TRACHE DJALAL, SAHNOUN NASSIMA, AND TARCHOUNE A. FOUZI 4.1 4.1.1 4.1.2 4.1.2.1 4.1.2.2 4.1.2.3 4.1.2.4 4.1.3 4.1.3.1 4.1.3.2 4.1.3.3 4.1.3.4 4.1.3.5 4.1.4 4.1.4.1 4.1.4.2 4.2 4.2.1 4.2.1.1 4.2.1.2 4.2.1.3 4.2.2 4.2.2.1 4.2.2.2 4.2.3 4.2.3.1 INTRODUCTION 63 STARCH SOURCE 63 ROOT AND TUBER STARCH SOURCES 63 POTATO 63 SWEET POTATO 65 CASSAVA 67 YAM 69 CEREAL STARCH SOURCES 70 WHEAT 70 CORN 72 RICE 73 OATS 74 BARLEY 75 NONCONVENTIONAL STARCH SOURCES 76 LEGUMES 76 FRUITS 77 STARCH EXTRACTION 80 MILLING PROCESS AND ITS EFFECT ON STARCH STRUCTURE 80 DRY MILLING 80 WET MILLING 81 EFFECT OF THE MILLING PROCESS ON STARCH STRUCTURE 81 EXAMPLES OF STARCH EXTRACTION FROM DIFFERENT SOURCES 82 EXTRACTION OF STARCH FROM TUBERS 82 EXTRACTION OF STARCH FROM CEREALS AND PULSES 83 NONCONVENTIONNEL EXTRACTION TECHNIQUES 85 ULTRASOUND-ASSISTED MILLING 85 VIII CONTENTS 4.23.2 4.233 4.23.4 4.23.5 4.3 4.3.1 4.3.1.1 4.3.1.2 4.3.1.3 4.3.1.4 4.3.2 4.3.3 4.3.4 4.3.5 4.4 MICROWAVE-ASSISTED STARCH EXTRACTION 85 AIR-CLASSIFICATION ASSISTED MILLING 86 ELECTROSTATIC SEPARATION 86 GLUTEN WASHING 87 STARCH APPLICATIONS 87 MEDICAL APPLICATIONS 87 DRUG DELIVERY SYSTEMS 87 SURGICAL SUTURES 88 BONE FIXATION AND REGENERATION 88 TISSUE ADHESION 89 WATER TREATMENT 89 AGRICULTURAL APPLICATIONS 90 PACKAGING APPLICATIONS 93 FOOD APPLICATIONS 94 CONCLUSIONS 95 REFERENCES 96 5 RECENT TRENDS OF CASHEW NUTSHELL LIQUID: EXTRACTION, CHEMISTRY, AND APPLICATIONS 117 SIXBERTH MLOWE AND JAMES MGAYA 5.1 5.2 5.3 5.3.1 5.3.2 5.3.3 5.4 5.4.1 5.4.2 5.5 INTRODUCTION 117 GLOBAL PRODUCTION OF CASHEW IN THE WORLD 118 EXTRACTION OF CNSL 118 THERMAL EXTRACTION 118 MECHANICAL EXTRACTION 119 SOLVENT EXTRACTION 120 ISOLATION AND THE CHEMISTRY OF MAJOR COMPONENTS OF CNSL 120 ISOLATION OF THE COMPONENTS OF NATURAL CNSL 121 ISOLATION OF THE COMPONENTS OF TECHNICAL CNSL 122 RECENT DEVELOPMENTS IN THE CHEMICAL TRANSFORMATION AND USES OF CASHEW NUTSHELL LIQUID 123 5.5.1 5.5.2 5.5.3 5.5.4 5.5.5 5.5.6 5.5.7 5.5.8 5.5.9 PHARMACEUTICAL DRUGS FROM CARDANOL 123 ANTHRAQUINONE-BASED DYES FROM ANACARDIC ACID 125 CNSL-BASED UV ABSORBERS 126 CNSL IN PREPARATION OF BIOACTIVE NANOCARRIERS 127 CNSL AS A GREEN CATALYST 127 CNSL-DERIVED BIFUNCTIONAL CHEMICALS 128 CNSL-BASED FLAME RETARDANTS 129 USE OF CASHEW NUTSHELL LIQUID IN THE SYNTHESIS OF NANOMATERIALS 130 USE OF CASHEW NUTSHELL FOR DECONTAMINATION OF POLLUTED ENVIRONMENT 131 5.5.10 5.6 USE OF CNSL FOR PREPARATION OF RESINS, ADHESIVES, AND COATINGS 133 CONCLUSIONS 134 ACKNOWLEDGMENT 134 REFERENCES 134 6 PLANT BIOMASS SEED AND ROOT MUCILAGE: EXTRACTION AND PROPERTIES 141 MOHSIN A. RAZA, PAUL D. HALLETT, AND WAHEED AFZAL 6.1 6.2 6.2.1 6.2.2 6.2.3 6.2.4 6.3 6.3.1 6.3.2 6.3.3 6.4 INTRODUCTION 141 EXTRACTION AND PREPARATION METHODS 144 MUCILAGE EXTRACTION AND PREPARATION 144 OTHER MUCILAGE EXTRACTION METHODS 144 MODEL COMPOUNDS PREPARATION 145 DENSITY AND VISCOSITY MEASUREMENTS 145 RESULTS AND DISCUSSION 146 DENSITY 146 VISCOSITY 149 MODEL COMPOUNDS 152 CONCLUSION 156 REFERENCES 157 7 PLANT-BASED COLORANTS: ISOLATION AND APPLICATION 159 VANDANA BHANDARI, PRATIKHYA BODONOYAK, AND SEIKO JOSE 7.1 7.2 7.2.1 7.2.1.1 7.2.1.2 7.2.1.3 7.2.1.4 7.2.2 7.2.2.1 7.2.2.2 7.2.2.3 7.2.2.4 7.2.2.5 7.2.2.6 7.2.3 7.2.3.1 7.2.3.2 7.2.3.3 7.2.3.4 7.2.3.5 7.2.4 7.3 7.3.1 7.3.1.1 7.3.1.2 7.3.2 7.3.2.1 INTRODUCTION 159 CLASSIFICATION OF NATURAL COLORANTS 160 CLASSIFICATION BASED ON THE SOURCES OF COLORANTS 160 PLANT-BASED NATURAL COLORANTS 160 COLORANT OBTAINED FROM ANIMAL SOURCES 162 MINERAL-BASED NATURAL COLORANTS 162 MICROBIAL AND FUNGAL ORIGIN 163 CLASSIFICATION ON THE BASIS OF CHEMICAL CONSTITUENTS PRESENT 163 INDIGOID DYES 163 ANTHRAQUINONE DYES 164 NAPHTHOQUINONE DYES 164 FLAVONOID DYES 165 CAROTENOID DYES 165 TANNIN-BASED DYES 165 CLASSIFICATION ON THE BASIS OF COLORS OBTAINED 165 NATURAL YELLOW DYES 165 NATURAL RED DYES 165 NATURAL BLUE DYES 166 NATURAL BLACK DYES 166 NATURAL BROWN DYES 166 CLASSIFICATION ON THE BASIS OF METHODS OF APPLICATIONS 166 EXTRACTION METHODS OF NATURALLY OCCURRING COLORANTS 167 CONVENTIONAL/TRADITIONAL METHODS 167 AQUEOUS EXTRACTION 167 NONAQUEOUS EXTRACTION 168 NEW INNOVATIVE/MODERN METHODS 169 RADIATION-BASED EXTRACTION (GAMMA, PLASMA, MICROWAVE, ULTRAVIOLET, AND ULTRASONIC RADIATION) 169 7.3.2.2 7.3.2.3 7.3.2.4 7.3.2.5 7.3.2.6 7.4 7.4.1 7.4.2 7.4.3 7.5 7.6 7.6.1 7.6.2 7.6.3 7.6.4 7.7 7.8 7.8.1 7.8.2 7.9 GAMMA RADIATION 170 ULTRAVIOLET RADIATION 170 ULTRASONIC RADIATION 170 SUPERCRITICAL EXTRACTION 170 ENZYMATIC METHOD 171 MORDANTING 171 METAL SALTS MORDANTS 172 OIL MORDANTS 172 TANNINS 172 MORDANTING METHODS 173 FUNCTIONAL PROPERTIES OF NATURAL COLORANTS 173 ANTIMICROBIAL PROPERTY 173 DEODORANT PROPERTIES OF NATURAL DYES 175 UV-PROTECTION PROPERTY OF NATURAL DYES 175 INSECT-REPELLENT PROPERTIES OF NATURAL DYES 176 FASTNESS PROPERTIES OF NATURAL DYES 176 ADVANTAGES AND DISADVANTAGES OF NATURAL DYES 177 ADVANTAGES 177 DISADVANTAGES 178 CONCLUSION 178 REFERENCES 179 8 REVIVAL OF SUSTAINABLE FUNGAL-BASED NATURAL PIGMENTS 189 SHAHID ADEEL, AMNA NASEER, BISMA, FAZAL-UR-REHMAN, NOMAN HABIB, AND ATYA HASSAN 8.1 8.2 8.3 8.4 8.4.1 8.4.1.1 8.4.1.2 8.4.1.3 8.4.2 8.4.2.1 8.4.3 8.4.3.1 8.4.3.2 8.4.3.3 8.4.4 8.4.4.1 8.4.4.2 8.4.5 8.4.5.1 8.5 INTRODUCTION 189 CLASSIFICATION OF NATURAL DYES BASED ON SOURCES 190 FUNGAL-BASED DYES AND PIGMENTS 190 CLASSIFICATION OF FUNGAL PIGMENTS 190 SPECIES OF THE TRICHOCOMACEAE FAMILY PRODUCING PIGMENTS 191 ASPERGILLUS 191 PENICILLIUM 193 TALAROMYCES SPECIES 194 SPECIES OF THE MONASCACEAE FAMILY PRODUCING PIGMENTS 196 MONASCUS PURPUREUS 196 SPECIES OF THE NECTRIACEAE FAMILY PRODUCING PIGMENTS 198 FUSARIUM OXYSPORUM 198 FUSARIUM GRAMINEARUM 199 FUSARIUM FUJIKUROI 201 SPECIES OF THE HYPOCREACEAE FAMILY PRODUCING PIGMENTS 202 TRICHODERMA HARZIANUM 202 TRICHODERMA SPIRALE 204 SPECIES OF THE PLEOSPORACEAE FAMILY PRODUCING PIGMENTS 205 PLEOSPORACEAE SPP. (ALTEMARIA, CURVULARIA, AND DRECHSLERA) 205 CONCLUSION 207 REFERENCES 207 9 MODERN APPROACH TOWARD ALGAL-BASED NATURAL PIGMENTS FOR TEXTILES 213 MAHWISH SALMAN, SHAHID ADEEL, MEHWISH NASEER, MUHAMMAD ZULQURNAIN HAIDER, AND FOZIA ANJUM 9.1 9.1.1 9.2 9.2.1 9.2.2 9.2.3 9.2.4 9.2.5 9.2.6 9.3 9.4 9.4.1 9.4.1.1 9.4.1.2 9.4.1.3 9.4.1.4 9.4.2 9.4.2.1 9.4.2.2 9.4.2.3 9.4.2.4 9.4.2.5 9.4.3 9.4.3.1 9.4.3.2 9.4.3.3 9.4.3.4 9.5 9.6 9.7 9.8 9.9 INTRODUCTION 213 BIO-PIGMENTS 216 DIVERSITY OF BIO-PIGMENTS PRESENT IN ALGAE 216 CHLOROPHYLL 217 CAROTENOIDS 218 PHYCOBILISOMES 218 PHYCOBILINS 219 PHYCOCYANIN 219 PHYCOERYTHRIN 220 EXTRACTION METHODS OF BIO-PIGMENTS 220 CONVENTIONAL EXTRACTION METHODS 220 CLASSIC EXTRACTION 220 SOLVENT-BASED EXTRACTION 220 THERMAL TREATMENT 221 FREEZE-THAW METHOD 221 ENZYMATIC EXTRACTION 221 MODERN EXTRACTION METHODS 222 PRESSURIZED SYSTEMS 222 WAVE-ENERGY-BASED CELL DISRUPTION 222 CELL MILKING 224 ELECTROEXTRACTION 224 SUPERCRITICAL FLUID EXTRACTION 225 NOVEL EXTRACTION METHODOLOGIES 225 LASER 226 HYDRODYNAMIC CAVITATION 226 HIGH VOLTAGE ELECTRICAL DISCHARGE (HVED) 226 OHMIC HEATING (OH) 226 ALGAL-BASED NATURAL DYES 227 BIO-PIGMENTS IN THE TEXTILE INDUSTRY 229 UTILIZATION OF ALGAL-BASED NATURAL DYES IN DIFFERENT INDUSTRIES 230 FUTURE PROSPECTIVE OF ALGAL-BASED BIO-PIGMENTS 231 CONCLUSION 232 REFERENCES 233 10 BIOREFINERY FROM PLANT BIOMASS: A CASE STUDY ON SUGARCANE STRAW 243 FAHRIYA P. SARI, NISSA N. SOLIHAT, NUR I. W. AZELEE, AND WIDYA FATRIASARI 10.1 10.2 10.3 10.3.1 INTRODUCTION 243 BIOREFINERY CONCEPT AND CURRENT TREND 245 BIOREFINERY CONCEPTS FOR SUGARCANE STRAW VALORIZATION 250 CELLULOSE-DERIVED BIOPRODUCTS (ISOLATION, CHARACTERIZATION, DERIVATIVE PRODUCTS) 250 10.3.1.1 10.3.1.2 10.3.1.3 10.3.1.4 10.3.2 BIOETHANOL 250 CELLULOSE NANOFIBER (CNF) AND CELLULOSE NANOCRYSTAL (CNC) 253 BIOMETHANE 253 BIOHYDROGEN 254 HEMICELLULOSE-DERIVED BIOPRODUCTS (ISOLATION, CHARACTERIZATION, DERIVATIVE PRODUCTS) 254 10.3.2.1 XYLOSE AND XYLOOLIGOSACCHARIDES DERIVED FROM HEMICELLULOSIC SUGARCANE STRAW 258 10.3.2.2 10.3.2.3 10.3.2.4 XYLITOL DERIVED FROM HEMICELLULOSIC SUGARCANE STRAW 258 FURFURAL DERIVED FROM HEMICELLULOSIC SUGARCANE STRAW 259 ALCOHOLS AND BIOGAS DERIVED FROM HEMICELLULOSIC SUGARCANE STRAW 259 10.3.3 LIGNIN-DERIVED BIOPRODUCTS (ISOLATION, CHARACTERIZATION, DERIVATIVE PRODUCTS) 259 10.3.4 10.4 10.5 OTHER COMPONENTS (EXTRACTIVES AND ASH) DERIVED BIOPRODUCTS 260 CHALLENGES AND FUTURE PERSPECTIVES 262 CONCLUSION 263 ACKNOWLEDGMENT 263 REFERENCES 263 11 FOREST AND AGRICULTURAL BIOMASS 271 MOHD H. MOHAMAD AMINI 11.1 11.2 11.2.1 11.2.1.1 11.2.1.2 11.3 11.3.1 11.3.1.1 11.3.1.2 11.3.1.3 11.3.1.4 11.3.2 11.3.2.1 11.3.2.2 11.4 11.4.1 11.4.2 11.4.3 11.4.4 11.4.5 11.4.6 11.4.7 11.4.8 INTRODUCTION 271 FOREST SOURCES 272 VIRGIN AND NATURAL FOREST 272 HARDWOOD 273 SOFTWOOD 273 PLANTATION FOREST 274 TIMBER SPECIES 275 ACACIA MANGIUM 275 RUBBER TREE 276 PINUS RADIATA 276 TECTONA GRANDIS 276 NON-TIMBER SPECIES 276 BAMBOO 277 JUTE AND KENAF 278 AGRICULTURAL BIOMASS 279 CORN/MAIZE 279 SUGARCANE 280 OIL PALM 280 WHEAT 281 CASSAVA 282 COCONUT 283 RICE 284 OTHERS 284 11.5 BIOMASS EXTRACTION AND APPLICATION 285 11.6 CONCLUSION AND PROSPECT 286 REFERENCES 286 12 MANUFACTURE OF MONOMERS AND PRECURSORS FROM PLANT BIOMASS 291 CATARINA P. GOMES, AMIR BZAINIA, AYSSATA ALMEIDA, CLAUDIA MARTINS, ROLANDO C.S. DIAS, AND MARIO RUI P.F.N. COSTA 12.1 INTRODUCTION 291 12.2 INDUSTRIALLY RELEVANT MONOMERS AND PRECURSORS FROM PLANT BIOMASS 295 12.2.1 SACCHARIDES 295 12.2.2 ETHANOL 298 12.2.3 LACTIC ACID 300 12.2.4 ITACONIC ACID 302 12.2.5 SUCCINIC ACID 302 12.2.6 SORBITOL AND XYLITOL 303 12.2.7 5-HYDROXYMETHYLFURFURAL 303 12.2.8 HYDROXY ACIDS FOR POLY(HYDROXYALKANOATES) 304 12.2.9 FURTHER CHEMICALS WITH PRACTICAL RELEVANCE 306 12.3 OTHER MONOMERS AND PRECURSORS THROUGH THE BIOTECHNOLOGICAL PATHWAY 312 12.4 OTHER MONOMERS AND PRECURSORS THROUGH THE CATALYTIC PATHWAY 313 12.5 CONCLUSION 314 ABBREVIATIONS 314 ACKNOWLEDGMENTS 315 REFERENCES 316 13 CHEMICAL ROUTES FOR THE TRANSFORMATION OF BIO-MONOMERS INTO POLYMERS 329 CATARINA P. GOMES, AMIR BZAINIA, AYSSATA ALMEIDA, CLAUDIA MARTINS, ROLANDO C.S. DIAS, AND MARIO RUI P.F.N. COSTA 13.1 INTRODUCTION 329 13.2 MAIN CHEMICAL ROUTES FOR THE TRANSFORMATION OF BIO-MONOMERS INTO POLYMERS 329 13.2.1 RING-OPENING POLYMERIZATION 330 13.2.2 CONDENSATION POLYMERIZATION 333 13.2.3 FREE RADICAL POLYMERIZATION 336 13.3 EXPLOITATION OF OLIVE TREE AND OLIVE OIL RESIDUES AS FEEDSTOCK FOR BIOPOLYMERS PRODUCTION 339 13.3.1 SECOND GENERATION BIOETHANOL AND PLATFORM CHEMICALS FOR THE POLYMER INDUSTRIES FROM LIGNOCELLULOSIC FRACTIONS 341 13.3.2 POLYHYDROXYALKANOATES 342 13.3.3 EXPLOITATION OF RESIDUAL OILS FROM OLIVE MILLS AND OLIVE POMACE TO GET POLYMERIZABLE MONOMERS 343 13.3.4 POLYPHENOLS IN OLIVE TREE RESIDUES FOR ADVANCED FUNCTIONAL POLYMERS 343 13.4 EXPLOITATION OF WINEMAKING RESIDUES FOR BIOPOLYMERS PRODUCTION 345 13.4.1 BIOETHANOL 345 13.4.2 LACTIC ACID, XYLITOL AND FURFURAL 346 13.4.3 SUCCINIC ACID 346 13.4.4 POLY(HYDROXYALKANOATES) 347 13.4.5 BIO-OILS FROM WINEMAKING RESIDUES FOR GENERATION OF POLYMERIZABLE MONOMERS 347 13.4.6 POLYPHENOLS IN WINERY RESIDUES FOR ADVANCED FUNCTIONAL POLYMERS 348 13.5 CONCLUSION 348 ABBREVIATIONS 349 ACKNOWLEDGMENTS 350 REFERENCES 350 14 MANUFACTURE OF POLYMER COMPOSITES FROM PLANT FIBERS 363 MD. REAZUDDIN REPON, TAREKUL ISLAM, TARIKUL ISLAM, AND MD. ABDUL ALIM 14.1 INTRODUCTION 363 14.2 BIOCOMPOSITES 365 14.2.1 PLANT-BASED NATURAL FIBERS 366 14.2.2 POLYMER MATRIX 367 14.3 FIBER TREATMENT AND MODIFICATION 371 14.4 FABRICATION OF COMPOSITES 373 14.5 MECHANICAL PROPERTIES OF MICRO AND NANOPOLYMER COMPOSITES 376 14.6 BIODEGRADABILITY OF MICRO AND NANO-POLYMER COMPOUNDS 377 14.7 POTENTIAL APPLICATION AREAS OF MICRO AND NANOPOLYMER COMPOSITES 378 14.8 CONCLUSION 381 REFERENCES 382 15 LIGNIN-BASED COMPOSITES AND NANOCOMPOSITES 389 RUBEN TEIJIDO, JULIA SANCHEZ-BADON, ANTONIO VELOSO-FERNANDEZ, LEYRE PEREZ-ALVAREZ, ANA C. LOPES, ISABEL MORENO-BENITEZ, JOSE L. VILAS-VILELA, AND LEIRE RUIZ-RUBIO 15.1 LIGNIN INTRODUCTION 389 15.2 SYNTHESIS OF LIGNIN-BASED NANOPARTICLES 393 15.2.1 ACID-CATALYZED PRECIPITATION 393 15.2.2 FLASH PRECIPITATION AND NANOPRECIPITATION 394 15.2.3 SOLVENT EXCHANGE 395 15.2.4 WATER-IN-OIL (W/O) MICROEMULSION METHODS 395 15.2.5 HOMOGENIZATION AND ULTRASONICATION 395 15.3 LIGNIN PROPERTIES AND APPLICATIONS 396 15.3.1 LIGNIN NANOPARTICLES-MATRIX INTERACTIONS 397 15.3.2 HIGH-TEMPERATURE REQUIRING APPLICATIONS 398 15.3.3 BIOMEDICAL APPLICATIONS 400 15.3.4 ENVIRONMENTAL APPLICATIONS 402 15.3.5 ENERGY STORAGE, CATALYSIS, AND ELECTROCHEMISTRY APPLICATIONS 405 15.3.5.1 CATALYSIS AND ENVIRONMENTAL REMEDIATION 405 15.3.5.2 ENERGY STORAGE APPLICATIONS: ELECTRODES AND SUPERCAPACITORS 406 15.3.6 CIVIL ENGINEERING APPLICATIONS (CONSTRUCTION, PROTECTIVE COATINGS, AND MECHANICAL REINFORCING APPLICATIONS) 406 15.4 CONCLUSION AND FUTURE WORK 407 ACKNOWLEDGMENTS 412 REFERENCES 412 16 BIO PLASTICS FROM BIOMASS 421 ALCIDES L. LEAO, IVANA CESARINO, MILENA C. DE SOUZA, IVAN MOROZ, AND MOHAMMAD JAWAID 16.1 INTRODUCTION 421 16.2 TYPES AND APPLICATIONS OF BIOPLASTICS 422 16.3 GLOBAL MARKET 427 16.4 BIOPLASTICS PROCESSING AND APPLICATIONS 429 16.4.1 POLYAMIDES 430 16.4.2 PP 431 16.4.3 PBAT AND PBS 432 16.4.4 CELLULOSE 432 16.5 CONCLUSION 434 ACKNOWLEDGMENTS 434 REFERENCES 434 17 PLANT-BASED MATERIALS FOR ENERGY APPLICATION 441 PATRICK U. OKOYE, DIEGO R. LOBATO-PERALTA, JOSE L. ALEMAN-RAMIREZ, ESTEFONIA DUQUE-BRITO, DULCE M. ARIAS, JUDE A. OKOLIE, AND PATHIYAMATTOM J. SEBASTIAN 17.1 INTRODUCTION 441 17.2 PLANT-BASED LIGNOCELLULOSIC BIOMASS 442 17.2.1 COMPOSITION AND EXTRACTION OF LIGNOCELLULOSIC COMPONENTS 442 17.2.2 CONVERSION OF PLANT-BASED BIOMASS INTO ACTIVATED CARBON 443 17.2.3 TYPES OF ACTIVATION 444 17.3 REACTOR CONFIGURATION 445 17.4 PLANT-BASED CARBON MATERIALS FOR ENERGY STORAGE PURPOSES 447 17.4.1 SUPERCAPACITORS 448 17.4.2 HYDROGEN STORAGE 449 17.4.3 MICROBIAL FUEL CELLS 450 17.4.4 PLANT-BASED CATALYSTS FOR BIODIESEL SYNTHESIS 451 17.4.4.1 GREEN HETEROGENEOUS CATALYSTS 452 17.4.4.2 DEVELOPMENT AND ACTIVATION OF GREEN HETEROGENEOUS CATALYSTS 452 17.5 CHALLENGES 456 17.6 CONCLUSIONS AND RECOMMENDATIONS 456 REFERENCES 457 18 PLANT BIOMASS FOR WATER PURIFICATION APPLICATIONS 465 HUMOYRA A. HIMU, TANVIR M. DIP, AYESHA S. EMU, ATM F. AHMED, AND MD. SYDUZZAMAN 18.1 18.2 18.2.1 18.2.2 18.2.3 18.2.4 18.2.5 18.3 18.3.1 18.3.2 18.3.2.1 18.3.2.2 18.3.3 18.3.3.1 18.3.3.2 18.4 18.4.1 18.4.2 INTRODUCTION 465 SOURCES OF PLANT BIOMASS USED FOR WATER PURIFICATION 469 AGRICULTURAL PEEL-BASED BIOMASS 471 LEAF-BASED BIOMASS 471 STEMS AND ROOTS-BASED BIOMASS 472 POWDER AND DUST-BASED BIOMASS 472 FLOATING PLANTS, BEDS, AND WETLANDS 473 MODIFICATION OF PLANT BIOMASS 473 PHYSICAL MODIFICATION 473 CHEMICAL MODIFICATION 474 CHEMICALLY MODIFIED PLANT BIOMASS FOR WATER PURIFICATION 474 THREE-DIMENSIONAL POROUS CAKE-LIKE BIOSORBENT 474 THERMOCHEMICAL MODIFICATION 477 PLANT BIOMASS-DERIVED BIOCHAR 477 PLANT BIOMASS-DERIVED AC 477 PLANT BIOMASS-BASED WATER PURIFICATION PROCESSES/TECHNIQUES 479 ADSORBENT-BASED PROCESS 480 SOLAR STEAM GENERATION (SSG) DEVICE FOR DESALINATION AND FILTRATION 481 18.4.3 18.4.4 18.5 18.5.1 18.5.2 18.5.3 18.6 18.6.1 18.6.2 18.6.3 18.6.4 18.7 18.8 18.9 BIOSORPTION 482 MEMBRANE FILTRATION 485 PURIFICATION MECHANISM 486 FOR DYE REMOVAL 486 FOR HEAVY METAL REMOVAL 487 FOR OTHER COMPOUNDS REMOVAL 489 SECTOR-BASED WATER PURIFICATION 489 DRINKING WATER 491 INDUSTRIAL WASTEWATER 493 DOMESTIC WASTEWATER 494 AGRICULTURAL WASTEWATER 494 REGENERATION AND REUSE 495 LIMITATIONS, CHALLENGES, AND FUTURE OUTLOOKS 497 CONCLUSION 498 REFERENCES 498 19 SUSTAINABLE BIOCOMPOSITE-BASED BIOMASS FOR AEROSPACE APPLICATIONS 517 MAZTAN NORKHAIRUNNISA, TAY CHAI HUA, FARID BAJURI, IZZAT N. YAACOB, AND KAMARUL A. AHMAD 19.1 19.2 INTRODUCTION 517 BIORESIN 518 19.2.1 19.3 19.3.1 BIODEGRADABILITY AND PROPERTIES OF SUSTAINABLE BIORESIN 519 BIOCOMPOSITE 523 DESIGN OF BIOCOMPOSITE FOR AEROSPACE APPLICATION REINFORCEMENT 524 19.3.1.1 19.3.1.2 19.3.1.3 19.3.2 19.3.3 PLANT-BASED FIBER 524 ANIMAL-BASED FIBER 524 BIOFILLERS 525 MATERIAL SELECTION AND ITS PROPERTIES IN AEROSPACE APPLICATIONS 525 BIOCOMPOSITE PERFORMANCES AND APPLICATIONS IN AEROSPACE STRUCTURE DESIGN 526 19.3.3.1 ADVANTAGEOUS AND DISADVANTAGEOUS OF COMPOSITE IN AEROSPACE APPLICATIONS 526 19.3.3.2 19.3.4 19.4 APPLICATION OF BIOCOMPOSITE IN AIRCRAFT STRUCTURE 527 SUSTAINABILITY AND ENVIRONMENTAL EFFECTS 528 SUMMARY 529 REFERENCES 530 20 BIOMASS-BASED FOOD PACKAGING 537 ASIF HAFEEZ, MADEHA JABBAR, YASIR NAWAB, AND KHUBAB SHAKER 20.1 20.2 20.2.1 20.2.1.1 20.2.1.2 20.2.1.3 20.2.1.4 20.2.1.5 20.2.1.6 20.2.1.7 20.2.2 20.2.3 20.2.4 20.3 20.4 20.5 20.5.1 20.5.2 20.5.3 20.6 20.6.1 20.6.2 20.6.3 20.7 FOOD PACKAGING MATERIALS 537 FOOD PACKAGING MATERIAL PERQUISITES 539 FOOD PACKAGING PROPERTIES 540 THERMAL PROPERTIES 540 MECHANICAL PROPERTIES 540 CHEMICAL REACTIVITY 540 OPTICAL PROPERTIES 541 GAS BARRIER PROPERTIES 541 MOISTURE BARRIER PROPERTIES 541 DURABILITY 541 PACKAGED PRODUCT CHARACTERISTICS 542 INDIVIDUAL PACKAGE PROPERTIES 542 STORAGE AND DISTRIBUTION CONDITIONS 543 ENVIRONMENTAL IMPACT OF CONVENTIONAL FOOD PACKAGING 543 SOURCES OF BIOMASS 545 PROCESSING OF BIOMASS TO FOOD PACKAGING 545 THERMOPLASTICIZATION OF BIOMASS 546 FILM BLOWING 547 FOAMING TECHNOLOGY 547 FOOD PACKAGING FROM AGRICULTURAL BIOMASS 547 RICE STRAW 548 WHEAT STRAW 549 SUGARCANE BAGASSE 549 CONCLUSION 550 REFERENCES 550 21 RECYCLING PLANT BIOMASS AND LIFE CYCLE ASSESSMENT IN CIRCULAR ECONOMY SYSTEMS 557 JOAN NYIKA, MEGERSA DINKA, AND ADEOLU ADESOJI ADEDIRAN 21.1 INTRODUCTION 557 21.2 PROCESS OF RECYCLING PLANT BIOMASS 558 21.2.1 GASIFICATION OF PLANT BIOMASS 559 21.2.2 PYROLYSIS OF PLANT BIOMASS 560 21.2.3 COMBUSTION OF PLANT BIOMASS 561 21.2.4 BIOLOGICAL CONVERSION OF PLANT BIOMASS 562 21.3 PROCESSES OF LIFE CYCLE ASSESSMENT 562 21.4 LITERATURE REVIEW ON LIFE CYCLE ASSESSMENT FOR PLANT BIOMASS RECYCLING 564 21.5 CONCLUSION 568 REFERENCES 568 22 THE HANDLING, STORAGE, AND PRESERVATION OF PLANT BIOMASS 575 JOAN NYIKA, MEGERSA DINKA, AND ADEOLU A. ADEDIRAN 22.1 INTRODUCTION 575 22.2 CHARACTERISTICS OF PLANT BIOMASS 576 22.3 HANDLING OF PLANT BIOMASS 578 22.4 STORAGE AND PRESERVATION OF PLANT BIOMASS 580 22.4.1 DRY STORAGE SYSTEMS 581 22.4.2 WET STORAGE SYSTEMS 583 22.4.3 PRESERVATION OF PLANT BIOMASS 584 22.5 CONCLUSION 586 REFERENCES 586 INDEX 591
any_adam_object 1
author2 Jose, Seiko
Thomas, Sabu 1960-
Samant, Lata
Mathew, Sneha Sabu
author2_role edt
edt
edt
edt
author2_variant s j sj
s t st
l s ls
s s m ss ssm
author_GND (DE-588)1021317551
author_facet Jose, Seiko
Thomas, Sabu 1960-
Samant, Lata
Mathew, Sneha Sabu
building Verbundindex
bvnumber BV049940652
classification_rvk ZP 3760
ctrlnum (DE-599)DNB1298371996
dewey-full 662.88
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dewey-hundreds 600 - Technology (Applied sciences)
dewey-ones 662 - Explosives, fuels & related products
661 - Technology of industrial chemicals
620 - Engineering and allied operations
dewey-raw 662.88
661
620.11
dewey-search 662.88
661
620.11
dewey-sort 3662.88
dewey-tens 660 - Chemical engineering
620 - Engineering and allied operations
discipline Chemie / Pharmazie
Energietechnik
format Book
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id DE-604.BV049940652
illustrated Illustrated
indexdate 2025-01-02T16:37:55Z
institution BVB
institution_GND (DE-588)16179388-5
isbn 9783527350766
3527350764
language English
oai_aleph_id oai:aleph.bib-bvb.de:BVB01-035278884
open_access_boolean
owner DE-703
owner_facet DE-703
physical xx, 604 Seiten Illustrationen, Diagramme 25 cm, 1338 g
publishDate 2024
publishDateSearch 2024
publishDateSort 2024
publisher Wiley-VCH
record_format marc
spelling Plant biomass derived materials sources, extractions, and applications edited by Seiko Jose, Sabu Thomas, Lata Samant and Sneha Sabu Mathew
Weinheim Wiley-VCH [2024]
xx, 604 Seiten Illustrationen, Diagramme 25 cm, 1338 g
txt rdacontent
n rdamedia
nc rdacarrier
Ausgangsmaterial (DE-588)4143518-7 gnd rswk-swf
Bioraffinerie (DE-588)7742513-3 gnd rswk-swf
Wertstoff (DE-588)4121651-9 gnd rswk-swf
Biomasse (DE-588)4006877-8 gnd rswk-swf
Werkstoff (DE-588)4065579-9 gnd rswk-swf
Pflanzlicher Rohstoff (DE-588)4174078-6 gnd rswk-swf
Chemikalie (DE-588)4009833-3 gnd rswk-swf
Bioenergieerzeugung (DE-588)4145597-6 gnd rswk-swf
Biotechnologie i. d. Biowissenschaften
Biotechnology
Biowissenschaften
Chemie
Chemistry
Industrial Chemistry
Life Sciences
Nachhaltige u. Grüne Chemie
Sustainable Chemistry & Green Chemistry
Technische u. Industrielle Chemie
CH30: Technische u. Industrielle Chemie
CHC0: Nachhaltige u. Grüne Chemie
LS35: Biotechnologie i. d. Biowissenschaften
Biomasse
Biotechnologie
Biomasse (DE-588)4006877-8 s
Pflanzlicher Rohstoff (DE-588)4174078-6 s
Wertstoff (DE-588)4121651-9 s
Ausgangsmaterial (DE-588)4143518-7 s
Bioraffinerie (DE-588)7742513-3 s
Chemikalie (DE-588)4009833-3 s
Werkstoff (DE-588)4065579-9 s
Bioenergieerzeugung (DE-588)4145597-6 s
DE-604
Jose, Seiko edt
Thomas, Sabu 1960- (DE-588)1021317551 edt
Samant, Lata edt
Mathew, Sneha Sabu edt
Wiley-VCH (DE-588)16179388-5 pbl
Erscheint auch als Online-Ausgabe, PDF 978-3-527-83901-8
Erscheint auch als Online-Ausgabe, EPUB 978-3-527-83902-5
Erscheint auch als Online-Ausgabe 978-3-527-83903-2
X:MVB http://www.wiley-vch.de/publish/dt/books/ISBN978-3-527-35076-6/
B:DE-101 application/pdf https://d-nb.info/1298371996/04 Inhaltsverzeichnis
DNB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=035278884&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
1\p dnb 20240416 DE-101 https://d-nb.info/provenance/plan#dnb
2\p dnb 20240416 DE-101 https://d-nb.info/provenance/plan#dnb
3\p dnb 20240416 DE-101 https://d-nb.info/provenance/plan#dnb
spellingShingle Plant biomass derived materials sources, extractions, and applications
Ausgangsmaterial (DE-588)4143518-7 gnd
Bioraffinerie (DE-588)7742513-3 gnd
Wertstoff (DE-588)4121651-9 gnd
Biomasse (DE-588)4006877-8 gnd
Werkstoff (DE-588)4065579-9 gnd
Pflanzlicher Rohstoff (DE-588)4174078-6 gnd
Chemikalie (DE-588)4009833-3 gnd
Bioenergieerzeugung (DE-588)4145597-6 gnd
subject_GND (DE-588)4143518-7
(DE-588)7742513-3
(DE-588)4121651-9
(DE-588)4006877-8
(DE-588)4065579-9
(DE-588)4174078-6
(DE-588)4009833-3
(DE-588)4145597-6
title Plant biomass derived materials sources, extractions, and applications
title_auth Plant biomass derived materials sources, extractions, and applications
title_exact_search Plant biomass derived materials sources, extractions, and applications
title_full Plant biomass derived materials sources, extractions, and applications edited by Seiko Jose, Sabu Thomas, Lata Samant and Sneha Sabu Mathew
title_fullStr Plant biomass derived materials sources, extractions, and applications edited by Seiko Jose, Sabu Thomas, Lata Samant and Sneha Sabu Mathew
title_full_unstemmed Plant biomass derived materials sources, extractions, and applications edited by Seiko Jose, Sabu Thomas, Lata Samant and Sneha Sabu Mathew
title_short Plant biomass derived materials
title_sort plant biomass derived materials sources extractions and applications
title_sub sources, extractions, and applications
topic Ausgangsmaterial (DE-588)4143518-7 gnd
Bioraffinerie (DE-588)7742513-3 gnd
Wertstoff (DE-588)4121651-9 gnd
Biomasse (DE-588)4006877-8 gnd
Werkstoff (DE-588)4065579-9 gnd
Pflanzlicher Rohstoff (DE-588)4174078-6 gnd
Chemikalie (DE-588)4009833-3 gnd
Bioenergieerzeugung (DE-588)4145597-6 gnd
topic_facet Ausgangsmaterial
Bioraffinerie
Wertstoff
Biomasse
Werkstoff
Pflanzlicher Rohstoff
Chemikalie
Bioenergieerzeugung
url http://www.wiley-vch.de/publish/dt/books/ISBN978-3-527-35076-6/
https://d-nb.info/1298371996/04
http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=035278884&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
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AT samantlata plantbiomassderivedmaterialssourcesextractionsandapplications
AT mathewsnehasabu plantbiomassderivedmaterialssourcesextractionsandapplications
AT wileyvch plantbiomassderivedmaterialssourcesextractionsandapplications

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