Verfügbarkeit: Supercritical carbon dioxide in polymer reaction engineering

Supercritical carbon dioxide in polymer reaction engineering:

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Bibliographische Detailangaben
Format:	Buch
Sprache:	English
Veröffentlicht:	Weinheim Wiley-VCH 2005
Schriftenreihe:	Green chemistry
Schlagworte:	Überkritischer Zustand - Kohlendioxid - Kunststoffverarbeitung Liquid carbon dioxide Polymerization Supercritical fluid extraction Kohlendioxid Überkritischer Zustand Kunststoffverarbeitung Aufsatzsammlung
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	XIX, 339 S. Ill., graph. Darst.
ISBN:	9783527310920 3527310924

Internformat

MARC


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245	1	0	\|a Supercritical carbon dioxide in polymer reaction engineering \|c ed. by Maartje F. Kemmere ...
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650		4	\|a Überkritischer Zustand - Kohlendioxid - Kunststoffverarbeitung
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Datensatz im Suchindex

_version_	1804135019210342400
adam_text	CONTENTS FOREWORD V PREFACE VII LIST OF CONTRIBUTORS XVII SUPERCRITICAL CARBON DIOXIDE FOR SUSTAINABLE POLYMER PROCESSES 1 MAARTJE KEMMERE INTRODUCTION 1 STRATEGIC ORGANIC SOLVENT REPLACEMENT 3 PHYSICAL AND CHEMICAL PROPERTIES OF SUPERCRITICAL CO2 5 INTERACTIONS OF CARBON DIOXIDE WITH POLYMERS AND MONOMERS 8 CONCLUDING REMARKS AND OUTLOOK 11 NOTATION 12 REFERENCES 13 PHASE BEHAVIOR OF POLYMER SYSTEMS IN HIGH-PRESSURE CARBON DIOXIDE 15 GABRIELE SADOWSKI INTRODUCTION 15 GENERAL PHASE BEHAVIOR IN POLYMER/SOLVENT SYSTEMS 15 POLYMER SOLUBILITY IN CO2 19 THERMODYNAMIC MODELING 27 CONCLUSIONS 32 NOTATION 33 REFERENCES 34 SUPERCRITICAL CARBON DIOXIDE: IN POLYMER REACTION ENGINEERING EDITED BY MAARTJE F. KEMMERE AND THIERRY MEYER COPYRIGHT 0 2005 WILEY-VCW VERLAG GMBH & CO. KGAA, WEINHEIM ISBN: 3-527-31092-4 X CONTENTS I TRANSPORT PROPERTIES OF SUPERCRITICAL CARBON DIOXIDE 37 FREDET-IC LAVANCHY, ERIC FOURCADE, EVERT DE KOEGER, JOHAN WBERS, THIERRY MEYER, AND JOS KEURENTJES INTRODUCTION 3 7 HYDRODYNAMICS AND MIXING 39 LASER-DOPPLER VELOCIMETRY AND COMPUTATIONAL FLUID DYNAMICS 39 FLOW CHARACTERISTICS 41 HEAT TRANSFER 44 SPECIFIC FOR NEAR-CRITICAL FLUIDS: TBE PISTON EFFECT 45 REACTION CALORIMETRY 46 HEAT TRANSFER IN STIRRED VESSEL WITH SCFS 48 CONCLUSIONS 53 NOTATION 53 RFERENCES 54 KINETICS OF FREE-RADICAL POLY M ERIZATION IN HO M OGENEOUS PHASE OF SUPERCRITICAL CARBON DIOXIDE 55 SABINE BEUERMANN UND MICHAEL BUBACK INTRODUCTION 55 EXPERIMENTAL 57 INITIATION 57 PROPAGATION 62 PROPAGATION RATE COEFFICIENTS 62 REACTIVITY RATIOS 67 TERMINATION 69 CHAIN TRANSFER 73 CONCLUSIONS 75 NOTATION 76 REFEERENCES 79 MONITORING READIONS IN SUPERCRITICAL MEDIA 81 THIERRY MEYER, SOPHIE FORTINI, AND CHARALAMPOS MANTELIS INTRODUCTION 81 ON-LINE ANALYTICAL METHODS USED IN SCF 82 SPECTROSCOPIC METHODS 82 FTIR 82 RAMAN SPECTROSCOPY 84 UV/VIS 85 NMR 87 REFLECTOMETRY 89 ACOUSTIC METHODS 89 CALORIMETRIC METHODS 90 POWER COMPENSATION CALORIMETRY 90 HEAT FLOW CALORIMETRY 91 HEAT BALANCE EQUATIONS 92 DETERMINATION OF PHYSICO-CHEMICAL PARAMETERS 95 CALORIMETER VALIDATION BY HEAT GENERATION SIMULATION 96 MMA POLYMERIZATION AS AN EXAMPLE 97 CALORIMETRIC RESULTS 97 THE COUPLING OF CALORIMETRY AND ON-LINE ANALYSIS 100 CONCLUSIONS 101 NOTATION 102 REFE RE NCES 103 HETEROGENEOUS POLYMERIZATION IN SUPERCRITICAL CARBON DIOXIDE 105 PHILIPP A. MUELLER, BARBARA BONAVOGLIA, CIUSEPPE STORTI, AND MASSIMO MORBIDELLI INTRODUCTION 105 LITERATURE REVIEW 106 MODELING OF THE PROCESS 108 CASE STUDY I: MMA DISPERSION POLYMERIZATION 115 CASE STUDY 11: VDF PRECIPITATION POLYMERIZATION 124 CONCLUDING RE M ARKS AND OUTLOOK 132 NOTATION 133 REFERENCES 13 6 INVERSE EMULSION POLYMERIZATION IN CARBON DIOXIDE 139 ERIC J. BECKMAN INTRODUCTION 13 9 INVERSE EMULSION POLYMERIZATION IN COZ: DESIGN CONSTRAINTS 141 SURFACTANT DESIGN FOR INVERSE EMULSION POLYMERIZATION 142 DESIGNING CO2-PHILIC COMPOUNDS: WHAT CAN WE LEARN FROM FLUOROPOLYMER BEHAVIOR? 143 NON-FLUOROUS CO2-PHILES: THE ROLE OF OXYGEN 144 INVERSE EMULSION POLYRNERIZATION IN CO2: RESULTS 148 FUTURE CHALLENGES 154 REFERENCES 154 CATALYTIC POLYMERIZATION OF OLEFINS IN SUPERCRITICAL CARBON DIOXIDE 157 MAARTJE KEMMERE, TJERK J. DE VRIES, AND JOS KEURENTJES INTRODUCTION 157 PHASE BEHAVIOR OF POLYOLEFIN-MONOMER-CO2 SYSTEMS 158 CLOUD-POINT MEASUREMENTS ON THE PEP-ETHYLENE-CO2 SYSTEM 158 SAFT MODELING OF THE PEP-ETHYLENE-CO2 SYSTEM 161 CATALYST SYSTEM 162 SOLUBILITY OF THE BROOKHART CATALYST IN SCC02 163 XI1 CONTENTS I 8.3.2 8.3.3 8.4 8.4.1 8.4.2 8.4.2.1 8.4.2.2 8.4.2.3 8.4.2.4 8.4.2.5 8.4.3 8.5 9 9.1 9.2 9.2.1 9.2.2 9.2.3 9.2.4 9.2.5 9.3 9.4 9.5 9.6 9.7 10 10.1 10.2 10.2.1 10.2.2 10.2.3 COPOLYRNERIZATION OF ETHYLENE AND NORBORNENE USING A NEUTRAL PD-CATALYS T 165 RING-OPENING METATHESIS POLYMERIZATION OF NORBORNENE USING AN MT0 CATALYST 166 POLYMERIZATION OF OLEFINS IN SUPERCRITICAL CO2 USING BROOKHART CATALYST 168 CATALYTIC POLYMERIZATION OF 1-HEXENE IN SUPERCRITICAL CO2 168 CATALYTIC POLYMERIZATION OF ETHYLENE IN SUPERCRITICAL CO2 170 EXPERIMENTAL PROCEDURE FOR POLYMERIZATION EXPERIMENTS 170 DETERMINATION OF REACTION RATE 171 RESULTS OF THE ETHYLENE POLYRNERIZATIONS 173 MONITORING REACTION RATE USING SAFT-LKP AND SAFT-PR 175 TOPOLOGY OF SYNTHESIZED POLYETHYLENES 177 COPOLYRNERIZATION OF ETHYLENE AND METHYL ACRYLATE IN SUPERCRITICAL CO2 180 CONCLUDING REMARKS AND OUTLOOK 183 NOTATION 185 REFERENCES 186 PRODUCTION OF FLUOROPOLYMERS IN SUPERCRITICAL CARBON DIOXIDE 189 COLIN D. WOOD, JASON C. YARBROUGH, GEORGE ROBERTS, AND JOSEPH M. DESIMONE INTRODUCTION 189 FLUOROOLEFIN POLYMERIZATION IN CO2 189 OVEWIEW 189 TFE-BASED MATERIALS 192 IONORNER RESINS AND ~AFION@ 195 VF2-BASED MATERIALS 195 VF2 AND TFE TELORNERIZATION 196 FLUOROALKYL ACRYLATE POLYRNERIZATIONS IN CO2 197 AMPHIPHILIC POLY(ALKYLACRY1ATES) 199 PHOTOOXIDATION OF FLUOROOLEFINS IN LIQUID CO2 200 C02/AQUEOUS HYBRID SYSTEMS 202 CONCLUSIONS 202 REFERENC 203 POLYMER PROCESSING WITH SUPERCRITICAL FLUIDS 205 OLIVER 5. FLEMING AND SERGE; G. KAZARIAN INTRODUCTION 205 PHASE BEHAVIOR OF C02/POLYRNER SYSTEMS AND THE EFFECT OF CO2 ON POLYMERS 206 SOLUBILITY OF CO2 IN POLYMERS 206 CO2-INDUCED PLASTICIZATION OF POLYMERS 207 CO2-INDUCED CRYSTALLIZATION OF POLYMERS 208 INTERFACIAL TENSION IN C02/POLYRNER SYSTEMS 21 1 DIFF U SION OF CO2 IN POLYMERS AND SOLUTES IN POLYMERS SUBJECTED TO CO2 213 FOAMING 215 RHEOLOGY OF POLY M ERS UNDER HIGH-PRESSURE CO2 218 METHODS FOR THE MEASUREMENTS OF POLYMER VISCOSITY UNDER HIGH-PRESSURE CO2 218 VISCOSITY OF POLER MELTS SUBJECTED TO CO2 21 9 IMPLICATIONS FOR PROCESSING: EXTRUSION 220 POLYMER BLENDS AND CO2 222 CO2-ASSISTED BLENDING OF POLYMERS 222 CO2-INDUCED PHASE SEPARATION IN POLYMER BLENDS 224 IMAGING OF POLYMERIC MATERIALS SUBJECTED TO HIGH-PRESSURE CO2 226 SUPERCRITICAL IMPREGNATION OF POLYMERIC MATERIALS 228 DYEING OF POLYMERIC MATERIALS 229 PREPARATION OF MATERIALS FOR OPTICAL APPLICATION 230 PREPARATION OF BIOMATERIALS AND PHARMACEUTICAL FORRNULATIONS 230 CONCLUSIONS AND OUTLOOLC 232 NOTATION 233 REFERENCES 234 SYNTHESIS OF ADVANCED MATERIALS USING SUPERCRITICAL FLUIDS 239 ANDREW I. COOPER INTRODUCTION 239 POLYMER SYNTHESIS 239 REACTION PRESSURE 240 INEXPENSIVE SURFACTANTS 240 POROUS MATERIALS 243 POROUS MATERIALS BY SCF PROCESSING 243 POROUS MATERIALS BY CHEMICAL SYNTHESIS 245 NANOSCALE MATERIALS AND NANOCOMPOSITES 247 CONFORMAL META1 FILMS 247 SYNTHESIS OF NANOPARTICLES 247 SYNTHESIS OF NANOWIRES 248 LITHOGRAPHY AND MICROELECTRONICS 249 SPIN COATING AND RESIST DEPOSITION 249 LITHOGRAPHIC DEVELOPMENT AND PHOTORESIST DRYING 250 ETCHING USING SCF SOLVENTS 250 DRY CHEMICAL MECHANICAL PLANARIZATION 251 CONCLUSION AND FUTURE OUTLOOK 251 REFERENCES 253 XIV CONTENTS I 12 12.1 12.2 12.3 12.4 12.4.1 12.4.2 12.5 12.5.1 12.5.2 12.5.3 12.5.4 12.6 7 3 13.1 13.2 13.3 13.3.1 13.3.1.1 13.3.2 13.3.2.1 13.3.2.2 13.3.2.3 13.3.3 13.3.3.1 13.3.3.2 13.3.4 13.3.4.1 13.3.4.2 13.3.4.3 13.3.5 13.4 13.4.1 13.4.2 POLYMER EXTRUSION WITH SUPERCRITICAL CARBON DIOXIDE 255 LEON P. B. M. JANSSEN AND SAMEER P. NALAWADE INTRODUCTION 255 PRACTICAL BACKGROUND ON EXTRUSION 256 SUPERCRITICAL CO2-ASSISTED E XTR USION 257 MIXING AND HOMOGENIZATION 260 DISSOLUTION OF GAS INTO POLY M ER MELT 260 DIFFUSION INTO THE POLYMER MELT 261 APPLICATIONS 262 POLYMER BLENDING 262 MICROCELLULAR FOAMING 265 PARTICLE PRODUCTION 268 REACTIVE EXTRUSION 269 CONCLUDING REMARKS 270 NOTATION 271 REFERENCES 271 CHEMICAL MODIFICATION OF POLYMERS IN SUPERCRITICAL CARBON DIOXIDE 273 JESSE M. DE COOIJER UND COR E. KONING INTRODUCTION 273 BRIEF REVIEW OF THE STATE OF THE ART 275 END-GROUP MODIFICATION OF POLYAMIDE G IN SUPERCRITICAL C02 277 BACKGROUND 277 SORPTION AND DIFFUSION 278 AMINE END-GROUP MODIFICATION WITH SUCCINIC ANHYDRIDE 279 SORPTION MEASUREMENTS 28 1 MELT STABILITY OF MODIFIED AND UNRNODIFIED PA4 285 CONCLUSIONS 286 AMINE AND CARBOXYLIC ACID END-GROUP MODIFICATION WITH 1,2-EPOXYBUTANE 286 MELT STABILITY OF MODIFIED AND UNMODIFIED PA-G 289 CONCLUSIONS 289 AMINE END-GROUP MODIFICATION WITH DIKETENE AND DIKETENE ACETONE ADDUCT 289 MODIFICATION OF PA-G GRANULES WITH DIKETENE AND DIKETENE ACETONE ADDUCT IN SUPERCRITICAL AND SUBCRITICAL CO2 290 MOLECULAR CHARACTERIZATION 291 CONCLUSIONS 292 GENERAL CONCLUSIONS ON POLYAMIDE MODIFICATION 292 CARBOXYLIC ACID END-GROUP MODIFICATION OF POLY(BUTY1ENE TEREPHTHALATE) WITH 1,2-EPOXYBUTANE IN SUPERCRITICAL CO2 292 BACKGROUND 292 CHERNICAL MODIFICATION OF PBT WITH 1,2-EPOXYBUTANE 293 INFLUENCE OF ACID END-GROUP CONCENTRATION ON HYDROLYTIC STABILITY 296 DETERMINATION OF MOLECULAR WEIGHTS 296 GENERAL CONCLUSIONS CONCERNING PBT MODIFICATION 297 CONCLUDING REMARKS AND OUTLOOK 297 NOTATION 298 REFERENCES 299 REDUCTION OF RESIDUAL MONOMER IN LATEX PRODUCTS USING HIGH-PRESSURE CARBON DIOXIDE 303 MAAR TJ E F. KEMMERE, MARCUS VAN SCHILT, MARC JACOBS, AND JOS KEURENTJES INTRODUCTION 303 OVERVIEW OF TECHNIQUES FOR REDUCTION OF RESIDUAL MONOMER 304 CONVERSION OF RESIDUAL MONOMER 305 REMOVAL OF RESIDUAL MONOMER 305 ALTERNATIVE TECHNOLOGY HIGH-PRESSURE CARBON DIOXIDE 307 ENHANCED POLYMERIZATION IN HIGH-PRESSURE CARBON DIOXIDE 307 PROCEDURE FOR PULSED ELECTRON BEAM EXPERIMENTS 308 RESULTS AND DISCUSSION 308 EXTRACTION CAPACITY OF CARBON DIOXIDE 3 10 MODELING PHASE BEHAVIOR WITH THE PENG-ROBINSON EQUATION OF STATE 3 11 PROCEDURE FOR MEASURING MONOMER PARTITION COEFFICIENTS 3 13 VALIDATION OF THE EXPERIMENTAL DETERMINATION OF PARTITION COEFFICIENTS 3 15 MEASURED PARTITION COEFFICIENTS OF MMA OVER WATER AND CO2 31 6 PREDICTION OF PARTITION COEFFICIENTS OF MMA OVER WATER AND CO2 31 9 MODELING THE TWO-COMPONENT SYSTEMS CO2-H20, MMA-CO2 AND MMA-H20 320 MODELING THE THREE-COMPONENT SYSTEM CO2-H20-MMA 320 PROCESS DESIGN FOR THE REMOVAL OF MMA FROM A PMMA LATEX USING COZ 323 EXTRACTION MODEL 323 DIFFUSION AND MASS TRANSFER COEFFICIENTS 324 PARTITION COEFFICIENTS 326 INTERFACIAL SURFACE AREAS 326 PROCESS FLOW DIAGRAM, EQUIPMENT SELECTION, AND EQUIPMENT SIZING 326 ECONOMIC EVALUATION 328 CONCLUSION AND FUTURE OUTLOO K 330 NOTATION 330 REFERENCES 332 SUBJECT INDEX 335
adam_txt	CONTENTS FOREWORD V PREFACE VII LIST OF CONTRIBUTORS XVII SUPERCRITICAL CARBON DIOXIDE FOR SUSTAINABLE POLYMER PROCESSES 1 MAARTJE KEMMERE INTRODUCTION 1 STRATEGIC ORGANIC SOLVENT REPLACEMENT 3 PHYSICAL AND CHEMICAL PROPERTIES OF SUPERCRITICAL CO2 5 INTERACTIONS OF CARBON DIOXIDE WITH POLYMERS AND MONOMERS 8 CONCLUDING REMARKS AND OUTLOOK 11 NOTATION 12 REFERENCES 13 PHASE BEHAVIOR OF POLYMER SYSTEMS IN HIGH-PRESSURE CARBON DIOXIDE 15 GABRIELE SADOWSKI INTRODUCTION 15 GENERAL PHASE BEHAVIOR IN POLYMER/SOLVENT SYSTEMS 15 POLYMER SOLUBILITY IN CO2 19 THERMODYNAMIC MODELING 27 CONCLUSIONS 32 NOTATION 33 REFERENCES 34 SUPERCRITICAL CARBON DIOXIDE: IN POLYMER REACTION ENGINEERING EDITED BY MAARTJE F. KEMMERE AND THIERRY MEYER COPYRIGHT 0 2005 WILEY-VCW VERLAG GMBH & CO. KGAA, WEINHEIM ISBN: 3-527-31092-4 X CONTENTS I TRANSPORT PROPERTIES OF SUPERCRITICAL CARBON DIOXIDE 37 FREDET-IC LAVANCHY, ERIC FOURCADE, EVERT DE KOEGER, JOHAN WBERS, THIERRY MEYER, AND JOS KEURENTJES INTRODUCTION 3 7 HYDRODYNAMICS AND MIXING 39 LASER-DOPPLER VELOCIMETRY AND COMPUTATIONAL FLUID DYNAMICS 39 FLOW CHARACTERISTICS 41 HEAT TRANSFER 44 SPECIFIC FOR NEAR-CRITICAL FLUIDS: TBE PISTON EFFECT 45 REACTION CALORIMETRY 46 HEAT TRANSFER IN STIRRED VESSEL WITH SCFS 48 CONCLUSIONS 53 NOTATION 53 RFERENCES 54 KINETICS OF FREE-RADICAL POLY M ERIZATION IN HO M OGENEOUS PHASE OF SUPERCRITICAL CARBON DIOXIDE 55 SABINE BEUERMANN UND MICHAEL BUBACK INTRODUCTION 55 EXPERIMENTAL 57 INITIATION 57 PROPAGATION 62 PROPAGATION RATE COEFFICIENTS 62 REACTIVITY RATIOS 67 TERMINATION 69 CHAIN TRANSFER 73 CONCLUSIONS 75 NOTATION 76 REFEERENCES 79 MONITORING READIONS IN SUPERCRITICAL MEDIA 81 THIERRY MEYER, SOPHIE FORTINI, AND CHARALAMPOS MANTELIS INTRODUCTION 81 ON-LINE ANALYTICAL METHODS USED IN SCF 82 SPECTROSCOPIC METHODS 82 FTIR 82 RAMAN SPECTROSCOPY 84 UV/VIS 85 NMR 87 REFLECTOMETRY 89 ACOUSTIC METHODS 89 CALORIMETRIC METHODS 90 POWER COMPENSATION CALORIMETRY 90 HEAT FLOW CALORIMETRY 91 HEAT BALANCE EQUATIONS 92 DETERMINATION OF PHYSICO-CHEMICAL PARAMETERS 95 CALORIMETER VALIDATION BY HEAT GENERATION SIMULATION 96 MMA POLYMERIZATION AS AN EXAMPLE 97 CALORIMETRIC RESULTS 97 THE COUPLING OF CALORIMETRY AND ON-LINE ANALYSIS 100 CONCLUSIONS 101 NOTATION 102 REFE RE NCES 103 HETEROGENEOUS POLYMERIZATION IN SUPERCRITICAL CARBON DIOXIDE 105 PHILIPP A. MUELLER, BARBARA BONAVOGLIA, CIUSEPPE STORTI, AND MASSIMO MORBIDELLI INTRODUCTION 105 LITERATURE REVIEW 106 MODELING OF THE PROCESS 108 CASE STUDY I: MMA DISPERSION POLYMERIZATION 115 CASE STUDY 11: VDF PRECIPITATION POLYMERIZATION 124 CONCLUDING RE M ARKS AND OUTLOOK 132 NOTATION 133 REFERENCES 13 6 INVERSE EMULSION POLYMERIZATION IN CARBON DIOXIDE 139 ERIC J. BECKMAN INTRODUCTION 13 9 INVERSE EMULSION POLYMERIZATION IN COZ: DESIGN CONSTRAINTS 141 SURFACTANT DESIGN FOR INVERSE EMULSION POLYMERIZATION 142 DESIGNING CO2-PHILIC COMPOUNDS: WHAT CAN WE LEARN FROM FLUOROPOLYMER BEHAVIOR? 143 NON-FLUOROUS CO2-PHILES: THE ROLE OF OXYGEN 144 INVERSE EMULSION POLYRNERIZATION IN CO2: RESULTS 148 FUTURE CHALLENGES 154 REFERENCES 154 CATALYTIC POLYMERIZATION OF OLEFINS IN SUPERCRITICAL CARBON DIOXIDE 157 MAARTJE KEMMERE, TJERK J. DE VRIES, AND JOS KEURENTJES INTRODUCTION 157 PHASE BEHAVIOR OF POLYOLEFIN-MONOMER-CO2 SYSTEMS 158 CLOUD-POINT MEASUREMENTS ON THE PEP-ETHYLENE-CO2 SYSTEM 158 SAFT MODELING OF THE PEP-ETHYLENE-CO2 SYSTEM 161 CATALYST SYSTEM 162 SOLUBILITY OF THE BROOKHART CATALYST IN SCC02 163 XI1 CONTENTS I 8.3.2 8.3.3 8.4 8.4.1 8.4.2 8.4.2.1 8.4.2.2 8.4.2.3 8.4.2.4 8.4.2.5 8.4.3 8.5 9 9.1 9.2 9.2.1 9.2.2 9.2.3 9.2.4 9.2.5 9.3 9.4 9.5 9.6 9.7 10 10.1 10.2 10.2.1 10.2.2 10.2.3 COPOLYRNERIZATION OF ETHYLENE AND NORBORNENE USING A NEUTRAL PD-CATALYS T 165 RING-OPENING METATHESIS POLYMERIZATION OF NORBORNENE USING AN MT0 CATALYST 166 POLYMERIZATION OF OLEFINS IN SUPERCRITICAL CO2 USING BROOKHART CATALYST 168 CATALYTIC POLYMERIZATION OF 1-HEXENE IN SUPERCRITICAL CO2 168 CATALYTIC POLYMERIZATION OF ETHYLENE IN SUPERCRITICAL CO2 170 EXPERIMENTAL PROCEDURE FOR POLYMERIZATION EXPERIMENTS 170 DETERMINATION OF REACTION RATE 171 RESULTS OF THE ETHYLENE POLYRNERIZATIONS 173 MONITORING REACTION RATE USING SAFT-LKP AND SAFT-PR 175 TOPOLOGY OF SYNTHESIZED POLYETHYLENES 177 COPOLYRNERIZATION OF ETHYLENE AND METHYL ACRYLATE IN SUPERCRITICAL CO2 180 CONCLUDING REMARKS AND OUTLOOK 183 NOTATION 185 REFERENCES 186 PRODUCTION OF FLUOROPOLYMERS IN SUPERCRITICAL CARBON DIOXIDE 189 COLIN D. WOOD, JASON C. YARBROUGH, GEORGE ROBERTS, AND JOSEPH M. DESIMONE INTRODUCTION 189 FLUOROOLEFIN POLYMERIZATION IN CO2 189 OVEWIEW 189 TFE-BASED MATERIALS 192 IONORNER RESINS AND ~AFION@ 195 VF2-BASED MATERIALS 195 VF2 AND TFE TELORNERIZATION 196 FLUOROALKYL ACRYLATE POLYRNERIZATIONS IN CO2 197 AMPHIPHILIC POLY(ALKYLACRY1ATES) 199 PHOTOOXIDATION OF FLUOROOLEFINS IN LIQUID CO2 200 C02/AQUEOUS HYBRID SYSTEMS 202 CONCLUSIONS 202 REFERENC 203 POLYMER PROCESSING WITH SUPERCRITICAL FLUIDS 205 OLIVER 5. FLEMING AND SERGE; G. KAZARIAN INTRODUCTION 205 PHASE BEHAVIOR OF C02/POLYRNER SYSTEMS AND THE EFFECT OF CO2 ON POLYMERS 206 SOLUBILITY OF CO2 IN POLYMERS 206 CO2-INDUCED PLASTICIZATION OF POLYMERS 207 CO2-INDUCED CRYSTALLIZATION OF POLYMERS 208 INTERFACIAL TENSION IN C02/POLYRNER SYSTEMS 21 1 DIFF U SION OF CO2 IN POLYMERS AND SOLUTES IN POLYMERS SUBJECTED TO CO2 213 FOAMING 215 RHEOLOGY OF POLY M ERS UNDER HIGH-PRESSURE CO2 218 METHODS FOR THE MEASUREMENTS OF POLYMER VISCOSITY UNDER HIGH-PRESSURE CO2 218 VISCOSITY OF POLER MELTS SUBJECTED TO CO2 21 9 IMPLICATIONS FOR PROCESSING: EXTRUSION 220 POLYMER BLENDS AND CO2 222 CO2-ASSISTED BLENDING OF POLYMERS 222 CO2-INDUCED PHASE SEPARATION IN POLYMER BLENDS 224 IMAGING OF POLYMERIC MATERIALS SUBJECTED TO HIGH-PRESSURE CO2 226 SUPERCRITICAL IMPREGNATION OF POLYMERIC MATERIALS 228 DYEING OF POLYMERIC MATERIALS 229 PREPARATION OF MATERIALS FOR OPTICAL APPLICATION 230 PREPARATION OF BIOMATERIALS AND PHARMACEUTICAL FORRNULATIONS 230 CONCLUSIONS AND OUTLOOLC 232 NOTATION 233 REFERENCES 234 SYNTHESIS OF ADVANCED MATERIALS USING SUPERCRITICAL FLUIDS 239 ANDREW I. COOPER INTRODUCTION 239 POLYMER SYNTHESIS 239 REACTION PRESSURE 240 INEXPENSIVE SURFACTANTS 240 POROUS MATERIALS 243 POROUS MATERIALS BY SCF PROCESSING 243 POROUS MATERIALS BY CHEMICAL SYNTHESIS 245 NANOSCALE MATERIALS AND NANOCOMPOSITES 247 CONFORMAL META1 FILMS 247 SYNTHESIS OF NANOPARTICLES 247 SYNTHESIS OF NANOWIRES 248 LITHOGRAPHY AND MICROELECTRONICS 249 SPIN COATING AND RESIST DEPOSITION 249 LITHOGRAPHIC DEVELOPMENT AND PHOTORESIST DRYING 250 ETCHING USING SCF SOLVENTS 250 "DRY" CHEMICAL MECHANICAL PLANARIZATION 251 CONCLUSION AND FUTURE OUTLOOK 251 REFERENCES 253 XIV CONTENTS I 12 12.1 12.2 12.3 12.4 12.4.1 12.4.2 12.5 12.5.1 12.5.2 12.5.3 12.5.4 12.6 7 3 13.1 13.2 13.3 13.3.1 13.3.1.1 13.3.2 13.3.2.1 13.3.2.2 13.3.2.3 13.3.3 13.3.3.1 13.3.3.2 13.3.4 13.3.4.1 13.3.4.2 13.3.4.3 13.3.5 13.4 13.4.1 13.4.2 POLYMER EXTRUSION WITH SUPERCRITICAL CARBON DIOXIDE 255 LEON P. B. M. JANSSEN AND SAMEER P. NALAWADE INTRODUCTION 255 PRACTICAL BACKGROUND ON EXTRUSION 256 SUPERCRITICAL CO2-ASSISTED E XTR USION 257 MIXING AND HOMOGENIZATION 260 DISSOLUTION OF GAS INTO POLY M ER MELT 260 DIFFUSION INTO THE POLYMER MELT 261 APPLICATIONS 262 POLYMER BLENDING 262 MICROCELLULAR FOAMING 265 PARTICLE PRODUCTION 268 REACTIVE EXTRUSION 269 CONCLUDING REMARKS 270 NOTATION 271 REFERENCES 271 CHEMICAL MODIFICATION OF POLYMERS IN SUPERCRITICAL CARBON DIOXIDE 273 JESSE M. DE COOIJER UND COR E. KONING INTRODUCTION 273 BRIEF REVIEW OF THE STATE OF THE ART 275 END-GROUP MODIFICATION OF POLYAMIDE G IN SUPERCRITICAL C02 277 BACKGROUND 277 SORPTION AND DIFFUSION 278 AMINE END-GROUP MODIFICATION WITH SUCCINIC ANHYDRIDE 279 SORPTION MEASUREMENTS 28 1 MELT STABILITY OF MODIFIED AND UNRNODIFIED PA4 285 CONCLUSIONS 286 AMINE AND CARBOXYLIC ACID END-GROUP MODIFICATION WITH 1,2-EPOXYBUTANE 286 MELT STABILITY OF MODIFIED AND UNMODIFIED PA-G 289 CONCLUSIONS 289 AMINE END-GROUP MODIFICATION WITH DIKETENE AND DIKETENE ACETONE ADDUCT 289 MODIFICATION OF PA-G GRANULES WITH DIKETENE AND DIKETENE ACETONE ADDUCT IN SUPERCRITICAL AND SUBCRITICAL CO2 290 MOLECULAR CHARACTERIZATION 291 CONCLUSIONS 292 GENERAL CONCLUSIONS ON POLYAMIDE MODIFICATION 292 CARBOXYLIC ACID END-GROUP MODIFICATION OF POLY(BUTY1ENE TEREPHTHALATE) WITH 1,2-EPOXYBUTANE IN SUPERCRITICAL CO2 292 BACKGROUND 292 CHERNICAL MODIFICATION OF PBT WITH 1,2-EPOXYBUTANE 293 INFLUENCE OF ACID END-GROUP CONCENTRATION ON HYDROLYTIC STABILITY 296 DETERMINATION OF MOLECULAR WEIGHTS 296 GENERAL CONCLUSIONS CONCERNING PBT MODIFICATION 297 CONCLUDING REMARKS AND OUTLOOK 297 NOTATION 298 REFERENCES 299 REDUCTION OF RESIDUAL MONOMER IN LATEX PRODUCTS USING HIGH-PRESSURE CARBON DIOXIDE 303 MAAR TJ E F. KEMMERE, MARCUS VAN SCHILT, MARC JACOBS, AND JOS KEURENTJES INTRODUCTION 303 OVERVIEW OF TECHNIQUES FOR REDUCTION OF RESIDUAL MONOMER 304 CONVERSION OF RESIDUAL MONOMER 305 REMOVAL OF RESIDUAL MONOMER 305 ALTERNATIVE TECHNOLOGY HIGH-PRESSURE CARBON DIOXIDE 307 ENHANCED POLYMERIZATION IN HIGH-PRESSURE CARBON DIOXIDE 307 PROCEDURE FOR PULSED ELECTRON BEAM EXPERIMENTS 308 RESULTS AND DISCUSSION 308 EXTRACTION CAPACITY OF CARBON DIOXIDE 3 10 MODELING PHASE BEHAVIOR WITH THE PENG-ROBINSON EQUATION OF STATE 3 11 PROCEDURE FOR MEASURING MONOMER PARTITION COEFFICIENTS 3 13 VALIDATION OF THE EXPERIMENTAL DETERMINATION OF PARTITION COEFFICIENTS 3 15 MEASURED PARTITION COEFFICIENTS OF MMA OVER WATER AND CO2 31 6 PREDICTION OF PARTITION COEFFICIENTS OF MMA OVER WATER AND CO2 31 9 MODELING THE TWO-COMPONENT SYSTEMS CO2-H20, MMA-CO2 AND MMA-H20 320 MODELING THE THREE-COMPONENT SYSTEM CO2-H20-MMA 320 PROCESS DESIGN FOR THE REMOVAL OF MMA FROM A PMMA LATEX USING COZ 323 EXTRACTION MODEL 323 DIFFUSION AND MASS TRANSFER COEFFICIENTS 324 PARTITION COEFFICIENTS 326 INTERFACIAL SURFACE AREAS 326 PROCESS FLOW DIAGRAM, EQUIPMENT SELECTION, AND EQUIPMENT SIZING 326 ECONOMIC EVALUATION 328 CONCLUSION AND FUTURE OUTLOO K 330 NOTATION 330 REFERENCES 332 SUBJECT INDEX 335
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spelling	Supercritical carbon dioxide in polymer reaction engineering ed. by Maartje F. Kemmere ... Weinheim Wiley-VCH 2005 XIX, 339 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Green chemistry Überkritischer Zustand - Kohlendioxid - Kunststoffverarbeitung Liquid carbon dioxide Polymerization Supercritical fluid extraction Kohlendioxid (DE-588)4031648-8 gnd rswk-swf Überkritischer Zustand (DE-588)4186602-2 gnd rswk-swf Kunststoffverarbeitung (DE-588)4114335-8 gnd rswk-swf (DE-588)4143413-4 Aufsatzsammlung gnd-content Überkritischer Zustand (DE-588)4186602-2 s Kohlendioxid (DE-588)4031648-8 s Kunststoffverarbeitung (DE-588)4114335-8 s DE-604 Kemmere, Maartje F. 1971- Sonstige (DE-588)130461326 oth OEBV Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=014571761&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Supercritical carbon dioxide in polymer reaction engineering Überkritischer Zustand - Kohlendioxid - Kunststoffverarbeitung Liquid carbon dioxide Polymerization Supercritical fluid extraction Kohlendioxid (DE-588)4031648-8 gnd Überkritischer Zustand (DE-588)4186602-2 gnd Kunststoffverarbeitung (DE-588)4114335-8 gnd
subject_GND	(DE-588)4031648-8 (DE-588)4186602-2 (DE-588)4114335-8 (DE-588)4143413-4
title	Supercritical carbon dioxide in polymer reaction engineering
title_auth	Supercritical carbon dioxide in polymer reaction engineering
title_exact_search	Supercritical carbon dioxide in polymer reaction engineering
title_exact_search_txtP	Supercritical carbon dioxide in polymer reaction engineering
title_full	Supercritical carbon dioxide in polymer reaction engineering ed. by Maartje F. Kemmere ...
title_fullStr	Supercritical carbon dioxide in polymer reaction engineering ed. by Maartje F. Kemmere ...
title_full_unstemmed	Supercritical carbon dioxide in polymer reaction engineering ed. by Maartje F. Kemmere ...
title_short	Supercritical carbon dioxide in polymer reaction engineering
title_sort	supercritical carbon dioxide in polymer reaction engineering
topic	Überkritischer Zustand - Kohlendioxid - Kunststoffverarbeitung Liquid carbon dioxide Polymerization Supercritical fluid extraction Kohlendioxid (DE-588)4031648-8 gnd Überkritischer Zustand (DE-588)4186602-2 gnd Kunststoffverarbeitung (DE-588)4114335-8 gnd
topic_facet	Überkritischer Zustand - Kohlendioxid - Kunststoffverarbeitung Liquid carbon dioxide Polymerization Supercritical fluid extraction Kohlendioxid Überkritischer Zustand Kunststoffverarbeitung Aufsatzsammlung
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=014571761&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT kemmeremaartjef supercriticalcarbondioxideinpolymerreactionengineering

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