Verfügbarkeit: Catalytic process development for renewable materials

Catalytic process development for renewable materials:

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Bibliographische Detailangaben
Weitere Verfasser:	Imhof, Pieter (HerausgeberIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Weinheim Wiley-VCH 2013
Schlagworte:	Symposion Biotechnologie Grüne Chemie Biomasse Technische Chemie Grundstoff Katalyse Biotechnologie Bioreaktor Umweltverträglichkeit Biomasseverarbeitung Nachhaltigkeit Industriechemikalie Konferenzschrift
Online-Zugang:	Inhaltstext Inhaltsverzeichnis
Beschreibung:	XIX, 400 S. Ill., graph. Darst.
ISBN:	9783527331697 9783527656639

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Datensatz im Suchindex

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adam_text	IMAGE 1 CONTENTS THE NEXT FEEDSTOCK TRANSITION X I I I PREFACE X V LIST O F CONTRIBUTORS X V I I 1 THE INDUSTRIAL PLAYING FIELD FOR THE CONVERSION O F BIOMASS TO RENEWABLE FUELS AND CHEMICALS 1 LEO E. MANZER, JAN COMELIS VAN DER WAAL, AND PIETER IMHOF 1.1 INTRODUCTION 1 1.2 THE RENEWABLES ARENA 2 1.3 RENEWABLE FUELS 9 1.4 RENEWABLE CHEMICALS 18 1.5 CONCLUSIONS 22 REFERENCES 22 2 SELECTING TARGETS 25 CENE PETERSEN, JOSEPH BOZELL, AND JAMES WHITE 2.1 INTRODUCTION 25 2.2 TARGET SELECTION CAN FOCUS ON SPECIFIC STRUCTURES OR GENERAL TECHNOLOGIES 28 2.3 PREVIOUS SELECTION EFFORTS 29 2.4 CORROBORATION O F THE VALUE O F SCREENING STUDIES 37 2.5 THE IMPORTANCE O F OUTCOMES AND COMPARISONS O F OUTCOMES 38 2.6 EVALUATION PROCESSES CAN BE COMPRISED O F A VARIETY O F CRITERIA 40 2.6.1 FEEDSTOCK AND INTERMEDIATE AVAILABILITY 40 2.6.2 EXISTING BIOREFINING INFRASTRUCTURE DICTATES CHEMICAL OR BIOCHEMICAL PROCESSES TO BE EVALUATED 41 2.6.3 MARKET DRIVERS 42 2.6.4 R&D DRIVERS 44 2.6.5 OTHER SCREENING OPPORTUNITIES 44 2.6.6 OTHER PORTFOLIO OPPORTUNITIES - BIOMASS PRODUCED OILS 45 2.7 CATALYSIS ASPECTS 46 HTTP://D-NB.INFO/1029120501 IMAGE 2 V I \| CONTENTS 2.8 CONCLUSIONS 48 REFERENCES 48 3 THE DEVELOPMENT O F CATALYTIC PROCESSES FROM TERPENES T O CHEMICALS 51 DEREK MCPHEE 3.1 INTRODUCTION 51 3.2 STRAIN ENGINEERING FOR THE PRODUCTION O F TERPENES 52 3.3 TERPENE BUILDING BLOCKS O F COMMERCIAL INTEREST 55 3.4 SESQUITERPENES AS CHEMICAL BUILDING BLOCKS: P-FARNESENE 56 3.5 POLYMERS 58 3.5.1 DIFFERENTIAL SCANNING CALORIMETRY 63 3.5.2 GEL PERMEATION CHROMATOGRAPHY 63 3.5.3 THERMAL GRAVIMETRIC ANALYSIS 64 3.5.4 TENSILE STRENGTH 65 3.6 LUBRICANTS 66 3.7 CONCLUSIONS 75 REFERENCES 76 4 FURAN-BASED BUILDING BLOCKS FROM CARBOHYDRATES 81 ROBERT-JAN VAN PUTTEN, ANA SOUSA DIAS, AND ED DE JONG 4.1 IMPORTANCE O F FURANS AS BUILDING BLOCKS 81 4.2 SOURCES O F CARBOHYDRATES 82 4.2.1 STORAGE CARBOHYDRATES 82 4.2.1.1 SUCROSE 82 4.2.1.2 STARCH 84 4.2.1.3 INULIN 84 4.2.2 STRUCTURAL CARBOHYDRATES 84 4.2.2.1 CELLULOSE 87 4.2.2.2 HEMICELLULOSES 87 4.2.3 AQUATIC CARBOHYDRATES 90 4.2.3.1 MACROALGAE 91 4.2.3.2 BROWN MACROALGAE 91 4.2.3.3 MICROALGAE 91 4.2.3.4 GREEN ALGAE 92 4.2.4 CONCLUSIONS ON CARBOHYDRATE FEEDSTOCKS 92 4.3 CARBOHYDRATE DEHYDRATION 92 4.3.1 INTRODUCTION 92 4.3.2 COMMERCIAL FURFURAL PRODUCTION AND APPLICATIONS 93 4.3.3 FURFURAL FORMATION FROM PENTOSE FEEDSTOCK 95 4.3.4 PRODUCTION SYSTEMS O F FURFURAL 99 4.3.5 HETEROGENEOUS CATALYSTS 101 4.3.6 5-HYDROXYMETHYLFURFURAL FORMATION FROM HEXOSE FEEDSTOCK 105 IMAGE 3 CONTENTS \| V I I 4.4 CONCLUSIONS AND FURTHER PERSPECTIVES 110 REFERENCES 111 5 A WORKFLOW FOR PROCESS DESIGN-USING PARALLEL REACTOR EQUIPMENT BEYOND SCREENING 119 ERIK-JAN RAS 5.1 INTRODUCTION 119 5.2 THE EVOLUTION O F PARALLEL REACTOR EQUIPMENT 120 5.3 THE EVOLUTION O F RESEARCH METHODOLOGY-CONCEPTUAL PROCESS DESIGN 121 5.4 ESSENTIAL WORKFLOW ELEMENTS 126 5.4.1 CATALYST TESTING EQUIPMENT 126 5.4.2 KINETICS AND PSEUDO-KINETICS 129 5.4.3 STATISTICAL DESIGN O F EXPERIMENTS 130 5.4.4 DATA ANALYSIS 136 5.4.5 EXAMPLE O F PCA APPLIED TO CATALYSIS 137 5.4.6 EXAMPLE O F PLS APPLIED TO DIESEL PROPERTIES 141 5.5 OTHER EXAMPLES O F PARALLEL REACTOR EQUIPMENT APPLIED BEYOND SCREENING-LONG-TERM CATALYST PERFORMANCE 143 5.6 CONCLUDING REMARKS 147 REFERENCES 147 6 BRASKEM'S ETHANOL TO POLYETHYLENE PROCESS DEVELOPMENT 149 PAULO LUIZ DE ANDRADE COUTINHO, AUGUSTA TERUO MORITA, LUIS F. CASSINELLI, ANTONIO MORSCHBACKER, AND ROBERTO WERNECK DO CARMO 6.1 INTRODUCTION 249 6.1.1 OVERVIEW O F BRASKEM ACTIVITIES AND HISTORY 149 6.1.2 WHY RENEWABLE POLYMERS AND WHY GREEN POLYETHYLENE? 149 6.2 ETHANOL AND BRAZIL 150 6.3 COMMERCIAL PLANTS FOR ETHANOL DEHYDRATION 152 6.3.1 SALGEMA 100 KTY PLANT 152 6.3.2 TRIUNFO 200 KTY PLANT 153 6.3.3 MEG PLANTS 154 6.3.4 ANNOUNCED RENEWABLE POLYMER PROJECTS 155 6.4 LEGISLATION AND CERTIFICATION 155 6.4.1 ETHANOL SUPPLIERS CODE O F CONDUCT 155 6.5 PROCESS DESCRIPTION 156 6.5.1 REACTION 256 6.5.1.1 CATALYSTS 157 6.5.1.2 SIDE REACTIONS 158 6.5.1.3 FIXED BED, ISOTHERMAL REACTION 259 6.5.1.4 FIXED BED, ADIABATIC REACTION 259 6.5.1.5 FLUIDIZED BED REACTION 160 6.5.2 REMOVAL O F IMPURITIES 262 6.5.2.1 UNREACTED ETHANOL AND OXYGENATES 162 IMAGE 4 V I I I CONTENTS 6.5.2.2 C 0 2 AND ACIDS 161 6.5.3 ETHYLENE PURIFICATION 161 6.6 POLYMERIZATION 162 6.7 CONCLUSION 162 ACKNOWLEDGMENTS 162 REFERENCES 163 7 FATS AND OILS AS RAW MATERIAL FOR THE CHEMICAL INDUSTRY 167 AALBERT (BART) ZWIJNENBURG 7.1 INTRODUCTION-SETTING THE SCENE, DEFINITIONS 167 7.2 WHY FATS AND OILS NEED CATALYTIC TRANSFORMATION 168 7.2.1 CARBOXYLIC ACIDS 168 7.2.2 ALCOHOLS 168 7.2.3 AMINES AND AMIDES 168 7.2.4 ESTERS 168 7.3 CATALYTIC PROCESS DEVELOPMENT-CONCEPTUAL 171 7.3.1 BIOLOGY OR CHEMICAL ROUTES? 171 7.3.2 HOW TO SELECT BETWEEN SLURRY AND FIXED-BED OPERATIONS? 172 7.3.3 HOW TO CHOOSE BETWEEN NICKEL AND PALLADIUM? 174 7.4 FATTY ALCOHOLS: THEN AND NOW, A CASE STUDY 175 7.4.1 CATALYST SELECTION 176 7.4.2 SLURRY VERSUS FIXED-BED PROCESSES 177 7.5 CONCLUSION AND OUTLOOK: DEVELOPMENT CHALLENGES FOR THE FUTURE 178 REFERENCES 179 8 PRODUCTION O F AROMATIC CHEMICALS FROM BIOBASED FEEDSTOCK 183 DAVID DODDS A N D BOB HUMPHREYS 8.1 INTRODUCTION 183 8.2 CHEMICAL ROUTES TO AROMATIC CHEMICALS FROM BIOMASS 184 8.2.1 PROCESS CHEMISTRY 186 8.2.1.1 PYROLYSIS 186 8.2.1.2 HYDROGENATION AND HYDROGENOLYSIS 186 8.2.1.3 CATALYTIC REFORMING 188 8.2.1.4 ZEOLITE TREATMENT 188 8.2.2 TECHNOLOGY EXAMPLES 189 8.2.2.1 CONVERSION O F BIOMASS-DERIVED SUGARS TO AROMATICS INCLUDING BTX 189 8.2.2.2 PYROLYSIS O F SOLID BIOMASS TO AROMATIC CHEMICALS 190 8.2.2.3 UPGRADING BIO-OILS TO AROMATICS 192 8.2.2.4 AROMATIC CHEMICALS FROM OTHER RENEWABLE RAW MATERIALS 192 8.2.3 SUMMARY 193 8.3 BIOLOGICAL ROUTES TO SPECIFIC AROMATIC CHEMICALS 194 8.3.1 PTAVIAPX 194 8.3.1.1 PX VIA ISOBUTANOL AND ISOBUTYLENE 194 IMAGE 5 CONTENTS I X 8.3.1.2 VALINE PATHWAY TO ISOBUTYLENE 194 8.3.1.3 DIRECT BIOLOGICAL ISOBUTYLENE PRODUCTION 196 8.3.1.4 BIOLOGICAL OXIDATION O F PX TO PTA 198 8.3.2 AROMATICS VIA HMF PRODUCTION 198 8.3.2.1 PREPARATION O F PTA VIA HMF 200 8.3.2.2 YIELD SUMMARY O F HMF ROUTES TO PTA 202 8.3.3 LIMONENE TO PTA 203 8.3.4 THE COMMON AROMATIC PATHWAY 203 8.3.4.1 BACKGROUND 203 8.3.4.2 OTHER AROMATIC COMPOUNDS FROM THE COMMON AROMATIC PATHWAY 210 8.3.5 OTHER ROUTES TO AROMATIC COMPOUNDS 215 8.3.5.1 TETRAHYDROXYBENZENE AND PYROGALLOL 215 8.3.5.2 PHLOROGLUCINOL 217 8.3.5.3 CHALCONES, STILBENES, VANILLIN AND LIGNANS 217 8.4 LIGNIN-THE LAST FRONTIER 220 8.5 CONSIDERATIONS FOR SCALE-UP AND COMMERCIALIZATION 222 8.6 CONCLUSION 224 REFERENCES 224 9 ORGANOSOLV BIOREFINING: CREATING HIGHER VALUE FROM BIOMASS 239 E. KENDALL PYE AND MICHAEL RUSHTON 9.1 INTRODUCTION 239 9.2 CONCEPTS AND PRINCIPLES O F BIOREFINERY TECHNOLOGIES 241 9.2.1 TYPES O F BIOREFINERIES FOR BIOMASS PROCESSING 241 9.2.1.1 BIOREFINERIES EMPLOYING THERMOCHEMICAL TREATMENT OF BIOMASS 242 9.2.1.2 BIOREFINERIES USING PHYSICAL AND CHEMICAL PRETREATMENT WITH BIOCHEMICAL PROCESSING 243 9.3 CATALYTIC PROCESSES EMPLOYED IN BIOREFINING 245 9.3.1 CATALYSIS IN BIOREFINERIES EMPLOYING GASIFICATION AND PYROLYSIS 245 9.3.2 CATALYSTS IN ANAEROBIC DIGESTION BIOREFINERIES 246 9.3.2.1 CATALYSTS IN NON-THERMOCHEMICAL BIOREFINERIES 246 9.4 AN ORGANOSOLV BIOREFINERY PROCESS FOR HIGH-VALUE PRODUCTS 247 9.4.1 GUIDING PRINCIPLES OF THE LIGNOL ORGANOSOLV BIOREFINERY 250 9.4.2 APPLICATIONS AND MARKETS FOR ORGANOSOLV BIOREFINERY PRODUCTS 251 9.4.2.1 NATIVE LIGNIN-ITS PROPERTIES AND COMPOSITION 251 9.4.2.2 LIGNIN FROM OTHER PROCESSES 251 9.4.2.3 HP-L* LIGNIN-ORGANOSOLV LIGNIN FROM THE LIGNOL BIOREFINERY 252 9.4.2.4 LIGNIN DERIVATIVES 252 9.4.3 HP-L LIGNIN PROPERTIES 253 9.4.4 CURRENT APPLICATIONS AND MARKET OPPORTUNITIES FOR HP-L LIGNIN 253 9.4.4.1 NEW PRODUCT OPPORTUNITIES FOR LIGNIN DERIVATIVES 254 9.4.4.2 MARKET DRIVERS FOR COMMERCIAL USE O F HP-L LIGNIN AND OTHER BIO-PRODUCTS 256 IMAGE 6 X CONTENTS 9.4.4.3 APPLICATION STRATEGIES FOR THE LIGNOL BIOREFINERY PROCESS 257 9.4.4.4 DEVELOPMENT O F THE LIGNOL BIOREFINERY PROCESS 258 9.5 CONCLUSIONS 260 REFERENCES 261 10 BIOMASS-TO-LIQUIDS BY THE FISCHER-TROPSCH PROCESS 265 ERLING RYTTER, ESTHER OCHOA-FERNDNDEZ, A N D ADIL FAHMI 10.1 BASICS O F FISCHER-TROPSCH CHEMISTRY AND BTL 265 10.1.1 THE FT HISTORY AND DRIVERS 265 10.1.2 REACTIONS 266 10.1.3 MECHANISMS AND KINETICS 268 10.1.4 PRODUCTS 269 10.1.5 FISCHER-TROPSCH METALS 270 10.1.6 THE BIOMASS-TO-LIQUID FT CONCEPT 271 10.2 COBALT FISCHER-TROPSCH CATALYSIS 272 10.2.1 CATALYST PREPARATION AND ACTIVATION 272 10.2.2 CATALYST ACTIVITY 274 10.2.3 SELECTIVITY 275 10.2.4 ACTIVITY LOSS 276 10.2.5 COMMERCIAL FORMULATIONS 277 10.3 FISCHER-TROPSCH REACTORS 279 10.3.1 REACTOR SELECTION 279 10.3.2 TUBULAR FIXED-BED 279 10.3.3 SLURRY BUBBLE COLUMN 280 10.4 BIOMASS PRETREATMENT AND GASIFICATION 282 10.4.1 PRETREATMENT O F BIOMASS 282 10.4.2 BIOMASS GASIFICATION 284 10.4.3 ENTRAINED-FLOW GASIFIER 286 10.4.4 FLUIDIZED-BED GASIFIER 287 10.4.5 PLASMA GASIFIER 288 10.4.6 GASIFICATION PILOT AND DEMONSTRATION PROJECTS 288 10.4.6.1 ENTRAINED-FLOW GASIFIERS 290 10.4.6.2 FLUIDIZED-BED GASIFIERS 291 10.4.6.3 PLASMA GASIFIERS 291 10.4.6.4 STEAM REFORMING 292 10.4.7 SYNGAS COMPOSITION 292 10.5 BIOMASS-TO-LIQUIDS PROCESS CONCEPTS 293 10.5.1 EXAMPLE O F PROCESS FLOW-SHEET 293 10.5.2 GAS CONDITIONING AND CLEAN-UP 294 10.5.3 BTL MASS AND ENERGY BALANCE 295 10.5.4 C 0 2 MANAGEMENT 298 10.5.5 UPGRADING AND PRODUCTS 299 10.5.6 PRODUCTION COST 300 10.6 BTL PILOT AND DEMONSTRATION PLANTS 301 10.7 XTL ENERGY AND CARBON EFFICIENCIES 303 IMAGE 7 CONTENTS \| X I 10.8 BTL SUMMARY AND OUTLOOK 304 REFERENCES 305 11 CATALYTIC TRANSFORMATION O F EXTRACTIVES 309 PAIVI MAKI-ARVELA, IRINA L. SIMAKOVA, TAPIO SALMI, A N D DMITRY YU. MURZIN 11.1 INTRODUCTION 309 11.2 FINE AND SPECIAL CHEMICALS FROM CRUDE TALL OIL COMPOUNDS 313 11.2.1 SITOSTEROL HYDROGENATION AND ITS APPLICATION IN FOOD AS A CHOLESTEROL-SUPPRESSING AGENT 313 11.3 FINE AND SPECIAL CHEMICALS FROM TURPENTINE COMPOUNDS 317 11.3.1 ISOMERIZATION O F MONOTERPENES AND THEIR DERIVATIVES 317 11.3.2 OXIDATION O F MONOTERPENES 327 11.3.3 HYDROGENATION O F MONOTERPENES 329 11.3.4 EPOXIDATION O F MONOTERPENES 330 11.3.5 HYDRATION O F MONOTERPENES 332 11.3.6 ESTERIFICATION AND ETHERIFICATION O F MONOTERPENES 333 11.3.7 ALDOL CONDENSATION O F MONOTERPENE DERIVATIVES 334 11.4 CONCLUSIONS 335 11.5 ACKNOWLEDGMENT 336 REFERENCES 336 12 ENVIRONMENTAL ASSESSMENT O F NOVEL CATALYTIC PROCESSES BASED ON RENEWABLE RAW MATERIALS-CASE STUDY FOR FURANICS 341 MARTIN K. PATEL, ALOYSIUS J.J.E. EERHART, A N D DEGER SAYGIN 12.1 INTRODUCTION 341 12.2 ENERGY SAVINGS BY CATALYTIC PROCESSES 343 12.3 LCA METHODOLOGY 346 12.4 CASE STUDY: ENERGY ANALYSIS AND GHG BALANCE O F POLYETHYLENE FURANDICARBOXYLATE (PEF) AS A POTENTIAL REPLACEMENT FOR POLYETHYLENE TEREPHTHALATE (PET) 348 12.5 DISCUSSION AND CONCLUSIONS 352 REFERENCES 352 13 CARBON DIOXIDE: A VALUABLE SOURCE O F CARBON FOR CHEMICALS, FUELS AND MATERIALS 355 MICHELE ARESTA A N D ANGELA DIBENEDETTO 13.1 INTRODUCTION 355 13.2 THE CONDITIONS FOR INDUSTRIAL USE O F C 0 2 356 13.2.1 ENVIRONMENTAL ISSUE 356 13.2.2 ENERGY ISSUES 357 13.2.3 ECONOMIC ISSUES 359 13.3 CARBON DIOXIDE CONVERSION 359 13.3.1 CARBONATES 359 13.3.1.1 ORGANIC MOLECULAR COMPOUNDS 360 13.3.1.2 SYNTHESIS O F ACYCLIC CARBONATES VIA CARBOXYLATION O F ALCOHOLS 361 IMAGE 8 X I I \| CONTENTS 13.3.1.3 SYNTHESIS O F CARBONATES VIA TRANSESTERIFICATION OR ALCOHOLYSIS OF UREA 364 13.3.1.4 SYNTHESIS O F CYCLIC CARBONATES AND POLYMERS 365 13.3.2 CARBAMATES AND POLYURETHANES 366 13.3.2.1 SYNTHESIS O F MOLECULAR CARBAMATES 366 13.3.2.2 INDIRECT SYNTHESIS OF CARBAMATES 369 13.4 ENERGY PRODUCTS FROM C 0 2 371 13.5 PRODUCTION O F INORGANIC CARBONATES 373 13.6 ENHANCED FIXATION O F C 0 2 INTO AQUATIC BIOMASS 374 13.7 CONCLUSION AND FUTURE OUTLOOK 378 REFERENCES 379 INDEX 387
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discipline	Chemie / Pharmazie Chemie Chemie-Ingenieurwesen Energietechnik
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genre	1\p (DE-588)1071861417 Konferenzschrift gnd-content
genre_facet	Konferenzschrift
id	DE-604.BV041065945
illustrated	Illustrated
indexdate	2024-08-03T00:41:55Z
institution	BVB
isbn	9783527331697 9783527656639
language	English
oai_aleph_id	oai:aleph.bib-bvb.de:BVB01-026042961
oclc_num	846958505
open_access_boolean
owner	DE-703 DE-91G DE-BY-TUM DE-11 DE-634 DE-83 DE-92 DE-29T
owner_facet	DE-703 DE-91G DE-BY-TUM DE-11 DE-634 DE-83 DE-92 DE-29T
physical	XIX, 400 S. Ill., graph. Darst.
publishDate	2013
publishDateSearch	2013
publishDateSort	2013
publisher	Wiley-VCH
record_format	marc
spelling	Catalytic process development for renewable materials ed. by Pieter Imhof ... Weinheim Wiley-VCH 2013 XIX, 400 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Symposion Biotechnologie (DE-588)291552-2 gnd rswk-swf Grüne Chemie (DE-588)7563215-9 gnd rswk-swf Biomasse (DE-588)4006877-8 gnd rswk-swf Technische Chemie (DE-588)4078178-1 gnd rswk-swf Grundstoff (DE-588)4158411-9 gnd rswk-swf Katalyse (DE-588)4029921-1 gnd rswk-swf Biotechnologie (DE-588)4069491-4 gnd rswk-swf Bioreaktor (DE-588)4006780-4 gnd rswk-swf Umweltverträglichkeit (DE-588)4061655-1 gnd rswk-swf Biomasseverarbeitung (DE-588)4400055-8 gnd rswk-swf Nachhaltigkeit (DE-588)4326464-5 gnd rswk-swf Industriechemikalie (DE-588)4226178-8 gnd rswk-swf 1\p (DE-588)1071861417 Konferenzschrift gnd-content Biomasse (DE-588)4006877-8 s Katalyse (DE-588)4029921-1 s Industriechemikalie (DE-588)4226178-8 s Grundstoff (DE-588)4158411-9 s DE-604 Technische Chemie (DE-588)4078178-1 s Biotechnologie (DE-588)4069491-4 s Bioreaktor (DE-588)4006780-4 s Symposion Biotechnologie (DE-588)291552-2 f Biomasseverarbeitung (DE-588)4400055-8 s Grüne Chemie (DE-588)7563215-9 s Nachhaltigkeit (DE-588)4326464-5 s Umweltverträglichkeit (DE-588)4061655-1 s 2\p DE-604 Imhof, Pieter edt Erscheint auch als Online-Ausgabe, EPUB 978-3-527-65665-3 Erscheint auch als Online-Ausgabe, MOBI 978-3-527-65664-6 Erscheint auch als Online-Ausgabe, PDF 978-3-527-65666-0 X:MVB text/html http://deposit.dnb.de/cgi-bin/dokserv?id=4216939&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=026042961&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis 1\p cgwrk 20201028 DE-101 https://d-nb.info/provenance/plan#cgwrk 2\p cgwrk 20201028 DE-101 https://d-nb.info/provenance/plan#cgwrk
spellingShingle	Catalytic process development for renewable materials Symposion Biotechnologie (DE-588)291552-2 gnd Grüne Chemie (DE-588)7563215-9 gnd Biomasse (DE-588)4006877-8 gnd Technische Chemie (DE-588)4078178-1 gnd Grundstoff (DE-588)4158411-9 gnd Katalyse (DE-588)4029921-1 gnd Biotechnologie (DE-588)4069491-4 gnd Bioreaktor (DE-588)4006780-4 gnd Umweltverträglichkeit (DE-588)4061655-1 gnd Biomasseverarbeitung (DE-588)4400055-8 gnd Nachhaltigkeit (DE-588)4326464-5 gnd Industriechemikalie (DE-588)4226178-8 gnd
subject_GND	(DE-588)291552-2 (DE-588)7563215-9 (DE-588)4006877-8 (DE-588)4078178-1 (DE-588)4158411-9 (DE-588)4029921-1 (DE-588)4069491-4 (DE-588)4006780-4 (DE-588)4061655-1 (DE-588)4400055-8 (DE-588)4326464-5 (DE-588)4226178-8 (DE-588)1071861417
title	Catalytic process development for renewable materials
title_auth	Catalytic process development for renewable materials
title_exact_search	Catalytic process development for renewable materials
title_full	Catalytic process development for renewable materials ed. by Pieter Imhof ...
title_fullStr	Catalytic process development for renewable materials ed. by Pieter Imhof ...
title_full_unstemmed	Catalytic process development for renewable materials ed. by Pieter Imhof ...
title_short	Catalytic process development for renewable materials
title_sort	catalytic process development for renewable materials
topic	Symposion Biotechnologie (DE-588)291552-2 gnd Grüne Chemie (DE-588)7563215-9 gnd Biomasse (DE-588)4006877-8 gnd Technische Chemie (DE-588)4078178-1 gnd Grundstoff (DE-588)4158411-9 gnd Katalyse (DE-588)4029921-1 gnd Biotechnologie (DE-588)4069491-4 gnd Bioreaktor (DE-588)4006780-4 gnd Umweltverträglichkeit (DE-588)4061655-1 gnd Biomasseverarbeitung (DE-588)4400055-8 gnd Nachhaltigkeit (DE-588)4326464-5 gnd Industriechemikalie (DE-588)4226178-8 gnd
topic_facet	Symposion Biotechnologie Grüne Chemie Biomasse Technische Chemie Grundstoff Katalyse Biotechnologie Bioreaktor Umweltverträglichkeit Biomasseverarbeitung Nachhaltigkeit Industriechemikalie Konferenzschrift
url	http://deposit.dnb.de/cgi-bin/dokserv?id=4216939&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=026042961&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT imhofpieter catalyticprocessdevelopmentforrenewablematerials

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