Biorefineries an introduction

Biorefineries an introduction

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Weitere Verfasser: Aresta, Michele 1940- (HerausgeberIn)
Format: Buch
Sprache:English
Veröffentlicht: Berlin [u.a.] de Gruyter 2015
Schriftenreihe:de Gruyter graduate
Schlagworte:
Bioraffinerie
Biomasse
Biochemie
Chemieanlage
Bioverfahrenstechnik
Fachhochschul-/Hochschulausbildung
Renewable Resources, Alternative Energy, Biomass Conversion,
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Datensatz im Suchindex

_version_ 1806332391721009152
adam_text CONTENTS PREFACE * V CONTRIBUTING AUTHORS*XV ABBREVIATIONS*XIX INTRODUCTION TO BIOREFINERY 1 MICHELE ARESTA, ANGELA DIBENEDETTO, AND FRANCK DUMEIGNIL 1 CATALYSIS, GROWTH, AND SOCIETY * 5 MYRSINI CHRISTOU, EFTHYMIA ALEXOPOULOU, LOANNIS ELEFTHERIADIS, LOANNA PAPAMICHAEL, KOSTAS TSIOTAS, MARIUSZ STOLARSKI, MICHAL KRZYZANIAK, AND CHARLES THEMISTOCLES 2 TERRESTRIAL BIOMASS PRODUCTION *13 2.1 INTRODUCTION 13 2.1.1 LAND AVAILABILITY 14 2.1.2 THE CROPS 14 2.1.2.1 THE OIL CROPS 15 2.1.2.2 THE LIGNOCELLULOSIC CROPS 16 2.2 LAND SUITABILITY 18 2.2.1 OIL CROPS 18 2.2.1.1 DATA SETS 18 2.2.1.2 DETERMINATION OF SELECTION CRITERIA 19 2.2.2 LIGNOCELLULOSIC CROPS 25 2.3 CROP SETTING UP 26 2.3.1 OIL CROPS 26 2.3.1.1 SOIL PREPARATION 26 2.3.1.2 SOWING 27 2.3.1.3 IRRIGATION 30 2.3.1.4 FERTILIZATION 30 2.3.1.5 WEEDING 31 2.3.1.6 CROP ROTATIONS 32 2.3.2 LIGNOCELLULOSIC CROPS 32 2.3.2.1 SOIL TYPE REQUIREMENT * -32 2.3.2.2 SOIL PREPARATION 33 2.3.2.3 PLANTING 33 2.3.2.4 IRRIGATION 34 2.3.2.5 FERTILIZATION 35 2.3.2.6 WEEDING 35 HTTP://D-NB.INFO/1061098958 VIII CONTENTS 2.4 YIELDS 35 2.4.1 OIL CROPS 35 2.4.1.1 EXPERIMENTAL DESIGN * 36 2.4.1.2 RESULTS 36 2.4.2 LIGNOCELLULOSICS 40 2.4.2.1 GIANT REED * 40 2.5 CROP HARVESTING 46 2.5.1 OIL CROPS 46 2.5.1.1 CASTOR 46 2.5.1.2 CRAMBE 47 2.5.1.3 SAFFLOWER 48 2.5.2 GIANT REED * 48 2.6 FUEL CHARACTERIZATION 51 BIBLIOGRAPHY 53 ANGELA DIBENEDETTO AND ANTONELLA COLUCCI 3 PRODUCTION AND USES OF AQUATIC BIOMASS * 57 3.1 INTRODUCTION 57 3.2 CLASSIFICATION OF AQUATIC BIOMASS 58 3.2.1 MACROALGAE 58 3.2.2 MICROALGAE 58 3.2.3 PLANTS 59 3.3 CULTIVATION OF AQUATIC BIOMASS 60 3.3.1 MACROALGAE 60 3.3.2 MICROALGAE 62 3.4 HARVESTING OF AQUATIC BIOMASS 65 3.4.1 MACROALGAE 65 3.4.2 MICROALGAE 66 3.5 COMPOSITION OF AQUATIC BIOMASS 67 3.5.1 BIO-OIL CONTENT OF AQUATIC BIOMASS 69 3.5.2 THE QUALITY OF BIO-OIL 71 3.6 TECHNOLOGIES FOR ALGAL OIL AND CHEMICALS EXTRACTION * 73 3.6.1 FRACTIONATION OF ALGAL BIOMASS 73 3.6.2 EXTRACTION USING CHEMICO-PHYSICAL METHODS 3.6.3 CONVENTIONAL SOLVENT EXTRACTION 75 3.6.4 SUPERCRITICAL FLUID EXTRACTION (SFE) 75 3.6.5 BIOLOGICAL EXTRACTION 76 3.7 CONCLUSIONS 76 BIBLIOGRAPHY 77 CONTENTS IX CHRISTIN GROEGER, WAEL SABRA, AND AN-PING ZENG 4 INTRODUCTION TO BIOCONVERSION AND DOWNSTREAM PROCESSING: PRINCIPLES AND PROCESS EXAMPLES * 81 4.1 INTRODUCTION 81 4.2 PRINCIPLES OF BIOCONVERSION PROCESS 83 4.3 EXAMPLES OF BIOCONVERSION PROCESSES * 85 4.3.1 MICROBIAL PRODUCTION OF 1,3-PROPANEDIOL FROM GLYCEROL * 85 4.3.2 BIOPRODUCTION OFN-BUTANOL 86 4.4 DOWNSTREAM PROCESSING 91 4.4.1 GENERAL SCHEME OF DOWNSTREAM PROCESSING OF FERMENTATION BROTH 91 4.4.2 DOWNSTREAM PROCESSING METHODS FOR 1,3-PDO AND N-BUTANOL * 94 4.4.2.1 EVAPORATION AND DISTILLATION 95 4.4.2.2 GAS STRIPPING 96 4.4.2.3 EXTRACTION METHODS 97 4.4.2.4 PERVAPORATION/MEMBRANE SEPARATION 99 4.4.2.5 ADSORPTION AND CHROMATOGRAPHY 100 4.5 CONCLUDING REMARKS 102 BIBLIOGRAPHY 104 GENNARO AGRIMI, ISABELLA PISANO, MARIA ANTONIETTA RICCI, AND LUIGI PALMIERI 5 MICROBIAL STRAIN SELECTION AND DEVELOPMENT FOR THE PRODUCTION OF SECOND-GENERATION BIOETHANOL *109 5.1 INTRODUCTION 109 5.2 ENZYMATIC HYDROLYSIS 111 5.2.1 IDENTIFICATION AND DEVELOPMENT OF BIOCATALYSTS FOR CELLULOSE AND HEMICELLULOSE HYDROLYSIS 112 5.3 FERMENTATION INHIBITORS IN LIGNOCELLULOSIC HYDROLYZATE 117 5.3.1 WEAK ACIDS 117 5.3.2 FURAN DERIVATIVES: FURFURAL AND HMF 118 5.3.3 PHENOLIC COMPOUNDS 118 5.3.4 OTHER INHIBITORS 119 5.3.5 DETOXIFICATION 120 5.3.5.1 PHYSICAL AND CHEMICAL DETOXIFICATION METHODS 120 5.3.5.2 BIOLOGICAL DETOXIFICATION METHODS 120 5.3.6 DEVELOPMENT OF BIOCATALYSTS WITH ENHANCED RESISTANCE TO FERMENTATION INHIBITORS 121 5.4 FERMENTATION 122 5.4.1 SEPARATE HYDROLYSIS AND FERMENTATION (SHF) *123 X CONTENTS 5.4.2 SIMULTANEOUS SACCHARIFICATION AND FERMENTATION (SSF) 123 5.4.3 SIMULTANEOUS SACCHARIFICATION AND CO-FERMENTATION (SSCF) 125 5.4.4 CONSOLIDATED BIOPROCESSING (CBP) 125 5.4.5 HIGH-GRAVITY FERMENTATION *126 5.5 MICROBIAL BIOCATALYSTS 127 5.5.1 ESCHERICHIA COLI 127 5.5.2 ZYMOMONAS MOBILIS 128 5.5.3 OTHER BACTERIA 129 5.5.4 SACCHAROMYCES CEREVISIAE 129 5.5.4.1 EXPRESSION OF THE FUNGAL XYLOSE UTILIZATION PATHWAY 130 5.5.4.2 EXPRESSION OF THE BACTERIAL XYLOSE UTILIZATION PATHWAY *132 5.5.4.3 EXPRESSION OF THE ARABINOSE UTILIZATION PATHWAY 132 5.5.5 OTHER YEASTS 133 5.6 STRAIN DEVELOPMENT FOR CBP 134 BIBLIOGRAPHY 136 BENJAMIN KATRYNIOK, FRANCOIS JEROME, ERIC MONFLIER, SEBASTIEN PAUL, AND FRANCK DUMEIGNIL 6 BIOMASS-DERIVED MOLECULES CONVERSION TO CHEMICALS USING HETEROGENEOUS AND HOMOGENEOUS CATALYSIS *141 6.1 INTRODUCTION 141 6.2 LIGNOCELLULOSIC BIOMASS 142 6.2.1 NATURAL POLYMERS PROCESSING 142 6.2.1.1 GLUCIDIC POLYMERS 142 6.2.1.2 LIGNIN 143 6.2.2 C1-C6 MOLECULES 146 6.2.2.1 CI STARTING MATERIALS: BIOGAS AND SYNGAS 146 6.2.2.2 C2 MOLECULE - ETHANOL 147 6.2.2.3 C3 MOLECULES - GLYCEROL AND LACTIC ACID *148 6.2.2.4 C4 MOLECULES - SUCCINIC ACID, 1,4-BUTANEDIOL, Y-BUTYROLACTONE, BUTANOL, /SO-BUTANOL, AND OLEFINS *150 6.2.2.5 C5 MOLECULES - XYLOSE, FURFURAL, LEVULINIC ACID, AND ISOPRENE 152 6.2.2.6 C6 MOLECULES - 5-HYDROXYMETHYLFURFURAL, 2,5-FURANDICARBOXYLIC ACID, AND SORBITOL 153 6.3 OLEAGINOUS BIOMASS 154 6.3.1 SEPARATION AND PRIMARY PRODUCTS 154 6.3.1.1 TRIGLYCERIDES 155 6.3.1.2 FATTY ACIDS AND ESTERS 156 6.4 CONCLUSION 160 BIBLIOGRAPHY 160 CONTENTS XL ALFONSO GRASSI, ANTONIO BUONERBA, AND SHEILA ORTEGA SANCHEZ 7 BIO-SOURCED POLYOLEFINS 165 7.1 INTRODUCTION: WHY RENEWABLE POLYMERS? 165 7.2 BIODERIVED CONVENTIONAL POLYOLEFINS: THE DROP-IN SYNTHESIS OF OLEFINS 168 7.3 NEW POLYOLEFINS FROM BIODERIVED MONOMERS *175 7.4 OUTLOOK AND PERSPECTIVE 188 BIBLIOGRAPHY 190 ELENI HERACLEOUS, EFTERPI S. VASILIADOU, ELENI F. ILIOPOULOU, ANGELOS A. LAPPAS, AND ANGELIKI A. LEMONIDOU 8 CONVERSION OF LIGNOCELLULOSIC BIOMASS-DERIVED INTERMEDIATES TO HYDROCARBON FUELS *197 8.1 INTRODUCTION 197 8.2 UPGRADING OF BIO-OIL FROM BIOMASS PYROLYSIS 198 8.2.1 UPGRADING OF BIO-OIL TO HYDROCARBONS BY HYDRODEOXYGENATION 200 8.2.2 UPGRADING OF BIO-OIL VIA C-C COUPLING REACTIONS 202 8.2.3 UPGRADING OF BIO-OIL TO HYDROCARBONS BY FLUID CATALYTIC CRACKING (FCC) 204 8.3 SUGARS TO HYDROCARBON FUELS 208 8.4 UPGRADING OF BUTANOL TO FUELS 212 8.5 CHALLENGES - OUTLOOK 214 BIBLIOGRAPHY 216 MARCO RICCI AND CARLO PEREGO 9 USE OF BIO-SOURCED SYNGAS * 219 9.1 INTRODUCTION 219 9.2 USES OF SYNGAS 220 9.2.1 SYNGAS AS A FUEL 220 9.2.2 SYNGAS AS A CHEMICAL FEEDSTOCK * 220 9.2.2.1 HYDROGEN PRODUCTION AND USES 221 9.2.2.2 AMMONIA PRODUCTION AND USES 222 9.2.2.3 UREA PRODUCTION AND USE * 222 9.2.2.4 METHANOL PRODUCTION AND USES 223 9.2.2.5 OXO CHEMICALS PRODUCTION AND USES 224 9.2.3 TRANSPORTATION FUELS FROM SYNGAS: THE FISCHER-TROPSCH PROCESS 225 9.2.3.1 FISCHER-TROPSCH TO FUELS: BIOMASS-TO-LIQUIDS PROCESSES 225 9.2.3.2 FISCHER-TROPSCH TO OLEFINS 228 9.2.3.3 FEEDING FISCHER-TROPSCH REACTIONS WITH C0 2 229 9.3 SYNGAS FERMENTATION * 230 9.4 PERSPECTIVES 232 BIBLIOGRAPHY 232 XII CONTENTS JEAN-LUC COUTURIER AND JEAN-LUC DUBOIS 10 OIL CHEMISTRY: CHEMICALS, POLYMERS, AND FUELS * 235 10.1 INTRODUCTION 235 10.2 INDUSTRIAL APPLICATIONS OF OIL CHEMISTRY * 238 10.3 EUROBIOREF CASE STUDIES 241 10.3.1 GENERAL DESCRIPTION OF THE VALUE CHAINS * 241 10.3.2 OIL PRODUCTION 243 10.3.3 COMPETITION ANALYSIS 244 10.3.4 TECHNOLOGY ANALYSIS 247 10.3.4.1 IPSCORE ANALYSIS 247 10.3.4.2 RISK AND SWOT ANALYSIS 248 10.3.4.3 LIFE CYCLE ASSESSMENT (LCA) 249 10.3.4.4 TECHNOLOGY READINESS LEVEL (TRL) ASSESSMENT - ACTUAL DEMONSTRATION STATUS 249 10.3.5 COSTS ANALYSIS 252 10.3.5.1 CAPITAL EXPENDITURE (CAPEX) EVALUATION 252 10.3.5.2 PRODUCTION COSTS EVALUATION 252 10.3.5.3 JOB CREATION 252 10.3.5.4 BUSINESS MODEL 253 10.3.5.5 CO-LOCATION IN EXISTING ASSETS 254 10.4 CONCLUSIONS 254 BIBLIOGRAPHY 255 HEIKO LANGE, ELISAVET D. BARTZOKA, AND CLAUDIA CRESTINI 11 LIGNIN BIOREFINERY: STRUCTURE, PRETREATMENT AND USE 257 11.1 INTRODUCTION 257 11.2 ORIGIN AND CHARACTERISTICS OF LIGNIN 258 11.2.1 LIGNIN OCCURRENCE AND LOCATION 258 11.2.2 LIGNIN STRUCTURE 258 11.3 POTENTIAL SOURCES OF BIOREFINERY LIGNIN 262 11.3.1 LIGNIN PRETREATMENT 262 11.3.2 KRAFT LIGNIN PROCESS * 262 11.3.3 THE SULFITE PULPING PROCESS 263 11.3.4 ORGANOSOLV LIGNIN 264 11.3.5 PYROLYSIS PROCESS 265 11.3.6 STEAM EXPLOSION LIGNIN 266 11.3.7 OTHER PROCESSES 266 11.4 THE USE OF LIGNIN IN CURRENT AND FUTURE BIOREFINERY SCHEMES 266 11.4.1 POWER - GREEN FUELS - SYNGAS * 269 11.4.2 MACROMOLECULES 269 11.4.3 AROMATICS AND CHEMICALS 271 CONTENTS XIII 11.4.4 APPLICATIONS IN NANOMATERIALS 273 11.4.4.1 CAPSULES^*273 11.4.4.2 NANOPARTICLES 274 11.4.4.3 MICROPOROUS AND NANOPOROUS MATERIALS 275 11.5 CONCLUSIONS AND PERSPECTIVES 276 BIBLIOGRAPHY 276 RAFROELANT, FABRIZIO CAVANI, CARLA S.M. PEREIRA, AND ALFRIO E. RODRIGUES 12 UTILIZATION OF EXISTING ASSETS 283 12.1 INTRODUCTION 283 12.1.1 WHY UTILIZING EXISTING PLANTS TO IMPLEMENT BIO-BASED TECHNOLOGY? 283 12.1.2 KINDS OF INTEGRATION SCENARIOS 284 12.2 CASE STUDY 1: MALEIC ANHYDRIDE PRODUCTION IN A PHTHALIC ANHYDRIDE PLANT 285 12.2.1 GENERAL 285 12.2.2 TECHNOLOGICAL ASPECTS OF THE RETROFIT 286 12.2.3 ECONOMIC EVALUATION 288 12.2.4 DEMONSTRATION STATUS 290 12.2.5 STRENGTHS, WEAKNESSES, OPPORTUNITIES, AND THREATS ANALYSIS 292 12.2.6 VALUE CREATION 292 12.2.7 CONCLUDING REMARKS 293 12.3 CASE STUDY 2:1,1-DIBUTOXYETHANE PRODUCTION ADDED TO AN /7-BUTANOL PLANT IN EUROPE 293 12.3.1 GENERAL 293 12.3.2 TECHNOLOGICAL ASPECTS 294 12.3.3 DEMONSTRATION STATUS 295 12.3.4 STRENGTHS, WEAKNESSES, OPPORTUNITIES, AND THREATS ANALYSIS 297 12.3.5 VALUE CREATION 297 12.3.6 CONCLUDING REMARKS 298 12.4 PERSPECTIVE VIEW 299 BIBLIOGRAPHY 299 MICHELE ARESTA 13 BIOGAS FROM WET BIOMASS: BASIC SCIENCE AND APPLICATIONS 13.1 INTRODUCTION 301 13.1.1 THE "AEROBIC" AND "ANAEROBIC" PROCESSES FOR WET WB 13.2 STRUCTURE OF RAW MATERIALS USED FOR BIOGAS PRODUCTION 13.2.1 CELLULOSE 304 13.2.2 HEMICELLULOSE 305 13.2.3 LIGNIN 305 13.2.4 PECTIN 306 301 301 304 XIV CONTENTS 13.2.5 STARCH 306 13.2.6 LIPIDS 307 13.2.7 PROTEINS 307 13.3 THE PHASES OF BIOGAS PRODUCTION 308 13.3.1 ANAEROBIC DIGESTION: A NATURE-BASED BIOTECHNOLOGY 309 13.3.2 HYDROLYTIC BACTERIA AND ACIDOGENESIS 310 13.3.2.1 TRANSITIONAL BACTERIA 311 13.3.2.2 ACETOGENESIS 312 13.3.2.3 BACTERIAL FLORA COMPOSITION 312 13.4 ROLE OF HYDROGENASES 313 13.4.1 [FEFE]H 2 -ASE 313 13.4.2 [FES]H 2 -ASE 314 13.4.3 [NIFE]H 2 -ASE AND [FE-NI-SE]-ASE 314 13.4.4 MOLYBDENUM-IRON-CONTAINING N 2 -ASE 316 13.5 METHANOGENIC BACTERIA * 317 13.5.1 METHANOGENESIS 318 13.5.2 THE LABORATORY EQUIPMENT FOR BIOGAS PRODUCTION AND SYSTEM INVESTIGATION 320 13.6 INDUSTRIAL REACTORS 322 13.6.1 TYPES OF REACTORS AND CONFIGURATION OF BIOGAS PLANTS 327 13.6.1.1 SOLID CONTENT 327 13.6.1.2 TEMPERATURE 327 13.6.1.3 LIQUID AND SOLID RETENTION TIME 327 13.6.1.4 CONTINUITY OF THE PROCESS 327 13.6.2 BIOGAS FROM WASTEWATERS 329 BIBLIOGRAPHY 331 INDEX 339
any_adam_object 1
author2 Aresta, Michele 1940-
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author_GND (DE-588)1059262282
author_facet Aresta, Michele 1940-
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dewey-ones 660 - Chemical engineering
dewey-raw 660.63
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Biologie
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id DE-604.BV042873492
illustrated Illustrated
indexdate 2024-08-03T02:40:07Z
institution BVB
isbn 9783110331530
language English
oai_aleph_id oai:aleph.bib-bvb.de:BVB01-028302556
oclc_num 925434604
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physical XVIII, 348 S. Ill., graph. Darst., Kt.
publishDate 2015
publishDateSearch 2015
publishDateSort 2015
publisher de Gruyter
record_format marc
series2 de Gruyter graduate
spelling Biorefineries an introduction ed. by Michele Aresta ...
Berlin [u.a.] de Gruyter 2015
XVIII, 348 S. Ill., graph. Darst., Kt.
txt rdacontent
n rdamedia
nc rdacarrier
de Gruyter graduate
Bioraffinerie (DE-588)7742513-3 gnd rswk-swf
Biomasse (DE-588)4006877-8 gnd rswk-swf
Biochemie (DE-588)4006777-4 gnd rswk-swf
Chemieanlage (DE-588)4121084-0 gnd rswk-swf
Bioverfahrenstechnik (DE-588)4307166-1 gnd rswk-swf
Fachhochschul-/Hochschulausbildung
Renewable Resources, Alternative Energy, Biomass Conversion,
Bioraffinerie (DE-588)7742513-3 s
DE-604
Bioverfahrenstechnik (DE-588)4307166-1 s
Chemieanlage (DE-588)4121084-0 s
Biochemie (DE-588)4006777-4 s
Biomasse (DE-588)4006877-8 s
Aresta, Michele 1940- (DE-588)1059262282 edt
Erscheint auch als Online-Ausgabe, EPUB 978-3-11-038999-9
Erscheint auch als Online-Ausgabe, PDF 978-3-11-033158-5
X:MVB text/html http://deposit.dnb.de/cgi-bin/dokserv?id=4828469&prov=M&dok_var=1&dok_ext=htm Inhaltstext
DNB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=028302556&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle Biorefineries an introduction
Bioraffinerie (DE-588)7742513-3 gnd
Biomasse (DE-588)4006877-8 gnd
Biochemie (DE-588)4006777-4 gnd
Chemieanlage (DE-588)4121084-0 gnd
Bioverfahrenstechnik (DE-588)4307166-1 gnd
subject_GND (DE-588)7742513-3
(DE-588)4006877-8
(DE-588)4006777-4
(DE-588)4121084-0
(DE-588)4307166-1
title Biorefineries an introduction
title_auth Biorefineries an introduction
title_exact_search Biorefineries an introduction
title_full Biorefineries an introduction ed. by Michele Aresta ...
title_fullStr Biorefineries an introduction ed. by Michele Aresta ...
title_full_unstemmed Biorefineries an introduction ed. by Michele Aresta ...
title_short Biorefineries
title_sort biorefineries an introduction
title_sub an introduction
topic Bioraffinerie (DE-588)7742513-3 gnd
Biomasse (DE-588)4006877-8 gnd
Biochemie (DE-588)4006777-4 gnd
Chemieanlage (DE-588)4121084-0 gnd
Bioverfahrenstechnik (DE-588)4307166-1 gnd
topic_facet Bioraffinerie
Biomasse
Biochemie
Chemieanlage
Bioverfahrenstechnik
url http://deposit.dnb.de/cgi-bin/dokserv?id=4828469&prov=M&dok_var=1&dok_ext=htm
http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=028302556&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv AT arestamichele biorefineriesanintroduction

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