Verfügbarkeit: Reactive and membrane-assisted separations

Reactive and membrane-assisted separations:

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Bibliographische Detailangaben
Weitere Verfasser:	Lutze, Philip (HerausgeberIn), Górak, Andrzej 1951- (HerausgeberIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Berlin ; Boston De Gruyter [2016]
Schriftenreihe:	De Gruyter graduate
Schlagworte:	Trennverfahren Membranverfahren Fachhochschul-/Hochschulausbildung Process Intensification, Sustainable Production Processes, Fluid separation, Scale-Up,
Online-Zugang:	Inhaltstext Inhaltsverzeichnis
Beschreibung:	XIV, 419 Seiten Illustrationen, Diagramme
ISBN:	9783110307832 3110307839

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Datensatz im Suchindex

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adam_text	CONTENTS LIST OF CONTRIBUTING AUTHORS * V PREFACE* VI PHILIP LUTZE AND DANIEL SUDHOFF 1 INTRODUCTION TO PROCESS INTENSIFICATION * 1 1.1 BACKGROUND ON PROCESS INTENSIFICATION * 1 1.1.1 DEFINITIONS OF PI * 1 1.1.2 PERFORMANCE INDICATORS FOR PI * 4 1.2 SCALES AND PRINCIPLES BEHIND PROCESS INTENSIFICATION * 5 1.2.1 PI AT DIFFERENT SCALES * 5 1.2.2 PRINCIPLE BEHIND PROCESS INTENSIFICATION * 13 1.2.3 PROCESS INTENSIFICATION WITHIN THIS TEXTBOOK * 14 1.3 PROCESS SYNTHESIS/DESIGN * 17 1.3.1 STATE OF THE ART: PROCESS SYNTHESIS/DESIGN METHODS * 18 1.3.2 PROCESS SYNTHESIS/DESIGN METHODS TO ACHIEVE PI FROM A PSE TOOLBOX * 20 1.4 TAKE-HOME MESSAGES * 30 1.5 QUIZ * 30 1.5.1 GENERAL PI * 30 1.5.2 PROCESS AND PLANT: HYBRID SEPARATIONS * 30 1.5.3 OPERATION AND EQUIPMENT: DIVIDING WALL COLUMNS * 30 1.5.4 PHASE AND TRANSPORT: EQUILIBRIUM REACTION * 31 1.5.5 FUNDAMENTAL AND MOLECULAR: EQUILIBRIUM REACTION * 31 1.6 SOLUTIONS------31 MIRKO SKIBOROWSKI AND ANDRZEJ GOERAK 2 HYBRID SEPARATION PROCESSES * 37 2.1 INTRODUCTION * 37 2.2 SYNTHESIS OF HYBRID SEPARATION PROCESSES * 41 2.2.1 HEURISTIC RULES * 41 2.2.2 THERMODYNAMIC INSIGHT * 42 2.2.3 MODEL-BASED APPROACHES AND MATHEMATICAL PROGRAMMING * 2.3 CONCEPTUAL DESIGN OF HYBRID SEPARATION PROCESSES * 59 2.3.1 PROCESS SYNTHESIS FRAMEWORK * 59 2.3.2 SHORTCUT METHODS * 61 2.3.3 METHODS BASED ON CONCEPTUAL DESIGN MODELS * 64 2.3.4 METHODS BASED ON DETAILED RATE-BASED MODELS * 69 2.4 ILLUSTRATION OF EXEMPLARY APPLICATIONS OF HYBRID SEPARATION PROCESSES * 72 2.4.1 CASE STUDY 1: DISTILLATION AND MELT CRYSTALLIZATION * 72 2.4.2 CASE STUDY 2: DISTILLATION AND ORGANIC SOLVENT NANOFILTRATION * 80 2.4.3 CASE STUDY 3: DISTILLATION WITH VAPOR PERMEATION AND/OR ADSORPTION * 87 2.5 TAKE-HOME MESSAGES * 97 2.6 QUIZ ----- 98 2.6.1 HYBRID SEPARATION PROCESSES * 98 2.6.2 SYNTHESIS OF HYBRID SEPARATION PROCESSES * 98 2.6.3 CONCEPTUAL DESIGN OF HYBRID SEPARATION PROCESSES * 98 2.7 SOLUTIONS ----- 100 2.7.1 HYBRID SEPARATION PROCESSES * 100 2.7.2 SYNTHESIS OF HYBRID SEPARATION PROCESSES * 101 2.7.3 CONCEPTUAL DESIGN OF HYBRID SEPARATION PROCESSES * 103 ALEXANDER NIESBACH 3 REACTIVE DISTILLATION* 111 3.1 FUNDAMENTALS * 111 3.1.1 BENEFITS AND DRAWBACKS * 113 3.1.2 CONFIGURATIONS ----- 115 3.1.3 COLUMN INTERNALS * 118 3.2 APPLICATIONS * 121 3.2.1 REACTIVE DISTILLATION WITHIN THE CHEMICAL INDUSTRY * 122 3.2.2 REACTIVE DISTILLATION TECHNOLOGY FOR WHITE BIOTECHNOLOGY * 123 3.3 MODELING ----- 134 3.3.1 EQUILIBRIUM-STAGE MODELING APPROACHES * 136 3.3.2 NONEQUILIBRIUM-STAGE MODELING APPROACHES * 138 3.4 CONCEPTUAL DESIGN OF REACTIVE DISTILLATION COLUMN * 139 3.4.1 MODEL-BASED DESIGN APPROACHES FOR REACTIVE DISTILLATION IN COLUMNS * 141 3.4.2 OPERATION AND HARDWARE SELECTION * 143 3.5 DETAILED EXAMPLE * 147 3.5.1 PROBLEM STATEMENT * 147 3.5.2 FEASIBILITY * 147 3.5.3 DESIGN ----- 150 3.6 TAKE-HOME MESSAGES * 154 3.7 QUIZ ----- 155 3.8 EXERCISES * 157 3.8.1 EQUILIBRIUM REACTION * 157 3.8.2 OPERATING PARAMETER VARIATION * 158 3.9 SOLUTIONS ------ 158 3.9.1 EQUILIBRIUM REACTION * 158 3.9.2 OPERATING PARAMETER VARIATION * 160 ANNA-KATHARINA KUNZE 4 REACTIVE ABSORPTION * 171 4.1 FUNDAMENTALS * 171 4.1.1 SEPARATION PRINCIPLE * 172 4.2 MODELING * 175 4.2.1 MASS TRANSFER* 175 4.2.2 MASS TRANSFER AND REACTION * 179 4.2.3 HYDRODYNAMICS * 181 4.3 CONCEPTUAL PROCESS DESIGN * 182 4.3.1 DESIGN CONSIDERATIONS * 183 4.3.2 MCCABE-THIELE PLOT * 183 4.3.3 SIDE EFFECTS * 187 4.4 APPLICATIONS ----- 189 4.4.1 SOLVENT SELECTION * 189 4.4.2 TYPE OF ABSORBERS * 190 4.4.3 EXAMPLES OF APPLICATIONS * 192 4.5 DETAILED EXAMPLES * 194 4.5.1 EXAMPLE 1: SEPARATION OF C02 FROM A FLUE GAS STREAM * 194 4.5.2 EXAMPLE 2: PRODUCTION OF NITRIC ACID * 197 4.5.3 EXAMPLE 3: BIOGAS UPGRADING * 197 4.6 TAKE-HOME MESSAGES * 199 4.7 QUIZ ----- 200 4.8 EXERCISES * 201 4.8.1 HYDRODYNAMICS AND MASS TRANSFER EFFICIENCY * 201 4.8.2 C02 ABSORPTION USING AN AQUEOUS SOLUTION OF NAOH * 202 4.9 SOLUTIONS * 203 4.9.1 REACTIVE ABSORPTION * 203 4.9.2 C02 ABSORPTION USING 1M NAOH * 204 ROBIN SCHULZ 5 REACTIVE EXTRACTION * 208 5.1 FUNDAMENTALS ----- 208 5.1.1 SEPARATION PRINCIPLE * 209 5.1.2 REACTIVE EXTRACTION * - 210 5.1.3 LIQUID-LIQUID EQUILIBRIUM * 213 5.1.4 SOLVENT SYSTEMS * 215 5.1.5 OPERATION MODES * 215 5.1.6 TYPE OF APPARATUS * 216 5.2 APPLICATIONS ------ 220 5.2.1 APPROACH A: SHIFTING THE THERMODYNAMIC EQUILIBRIUM * 221 5.2.2 APPROACH B: RETENTION OF HOMOGENOUS CATALYSTS * 221 5.2.3 APPROACH C: SHIFT IN THE REACTION EQUILIBRIUM * 223 5.3 MODELING* 224 5.3.1 SHORTCUT MODELS * 224 5.3.2 DETAILED MODEL CONSIDERING MASS TRANSFER AND KINETICS * 224 5.4 CONCEPTUAL DESIGN * 226 5.4.1 SOLVENT SELECTION * 227 5.4.2 DESIGN * 227 5.4.3 EQUIPMENT SELECTION * 229 5.5 DETAILED EXAMPLE * 229 5.6 TAKE-HOME MESSAGES * 231 5.7 QUIZ * 231 5.8 EXERCISES * 232 5.9 SOLUTIONS ----- 233 JOHANNES HOLTBRIIGGE 6 MEMBRANE-ASSISTED (REACTIVE) DISTILLATION * 237 6.1 FUNDAMENTALS * 237 6.1.1 PERVAPORATION AND VAPOR PERMEATION * 238 6.1.2 MEMBRANE-ASSISTED DISTILLATION * 243 6.1.3 MEMBRANE-ASSISTED REACTIVE DISTILLATION * 246 6.2 APPLICATIONS * 249 6.2.1 VAPOR PERMEATION AND PERVAPORATION * 249 6.2.2 MEMBRANE-ASSISTED DISTILLATION * 250 6.2.3 MEMBRANE-ASSISTED REACTIVE DISTILLATION * 252 6.3 MODELING ----- 254 6.3.1 MODELING OF PERVAPORATION AND VAPOR PERMEATION * 254 6.3.2 MODELING OF MEMBRANE-ASSISTED (REACTIVE) DISTILLATION PROCESSES * 265 6.4 CONCEPTUAL DESIGN OF MEMBRANE-ASSISTED (REACTIVE) DISTILLATION * 268 6.4.1 FEASIBILITY OF MEMBRANE-ASSISTED (REACTIVE) DISTILLATION * 269 6.4.2 SYSTEMATIC FRAMEWORK FOR CONCEPTUAL PROCESS DESIGN * 271 6.4.3 SUPERSTRUCTURE OPTIMIZATION * 276 6.5 DETAILED EXAMPLES * 276 6.5.1 SEPARATION OF ACETONE, ISOPROPANOL, AND WATER* 277 6.5.2 SYNTHESIS AND PURIFICATION OF DIMETHYL CARBONATE AND PROPYLENE GLYCOL * 280 6.6 TAKE-HOME MESSAGES * 285 6.7 QUIZ ----- 286 6.8 EXERCISES * 287 6.8.1 PERVAPORATION * 287 6.8.2 VAPOR PERMEATION * 288 6.8.3 MEMBRANE-ASSISTED DISTILLATION * 289 6.8.4 MEMBRANE-ASSISTED REACTIVE DISTILLATION * 292 6.9 SOLUTIONS ----- 295 6.9.1 PERVAPORATION * 295 6.9.2 VAPOR PERMEATION * 295 6.9.3 MEMBRANE-ASSISTED DISTILLATION * 296 6.9.4 MEMBRANE-ASSISTED REACTIVE DISTILLATION * 300 PATRICK SCHMIDT 7 OSN-ASSISTED REACTION AND DISTILLATION PROCESSES * 312 7.1 FUNDAMENTALS * 312 7.1.1 SEPARATION PRINCIPLE * 313 7.1.2 OSN MEMBRANE CHARACTERIZATION METHODS * 315 7.1.3 MEMBRANE MATERIALS AND MODULE TYPES * 316 7.2 APPLICATIONS * 318 7.3 MODELING ----- 322 7.3.1 SOLUTION-DIFFUSION MODELS * 323 7.3.2 PORE-FLOW MODELS * 324 7.3.3 DETAILED MODELS * 325 7.4 DESIGN OF OSN-ASSISTED PROCESSES * 325 7.4.1 CONCEPTUAL DESIGN * 326 7.4.2 DETAILED PROCESS DESIGN * 327 7.5 EXAMPLES * 331 7.5.1 EXAMPLE 1: INTEGRATION OF OSN AND REACTION * 333 7.5.2 EXAMPLE 2: INTEGRATION OF OSN AND DISTILLATION * 343 7.6 TAKE-HOME MESSAGES * 353 7.7 QUIZ ----- 354 7.7.1 OSN FUNDAMENTALS * 354 7.7.2 PROCESS DESIGN FOR OSN * 354 7.8 EXERCISES * 355 7.9 SOLUTIONS ----- 355 7.9.1 OSN FUNDAMENTALS * 355 7.9.2 PROCESS DESIGN FOR OSN * 358 7.9.3 EXERCISES * 359 DANIEL SUDHOFF 8 CENTRIFUGALLY ENHANCED VAPOR/GAS-LIQUID PROCESSING* 364 8.1 FUNDAMENTALS * 364 8.1.1 HISTORICAL BACKGROUND * 364 8.1.2 SEPARATION PRINCIPLES * 366 8.2 APPLICATIONS ----- 371 8.2.1 REACTIVE SYSTEMS * 371 8.2.2 GAS-LIQUID CONTACTING SYSTEMS * 372 8.2.3 POTENTIAL FUTURE APPLICATIONS * 378 8.3 MODELING AND DESIGN * 380 8.3.1 MASS TRANSFER EVALUATION * 381 8.3.2 ROTOR DESIGN ----- 382 8.3.3 DESIGN METHOD FOR RPBS ----- 384 8.4 DETAILED EXAMPLES * 385 8.4.1 EXAMPLE 1: PRODUCTION OF HYPOCHLOROUS ACID ----- 385 8.4.2 EXAMPLE 2: MODULAR AND FLEXIBLE CONTAINER SYSTEMS * 386 8.4.3 EXAMPLE 3: HIGH-PRESSURE DISTILLATION * 390 8.5 TAKE-HOME MESSAGES * 401 8.6 QUIZ ----- 403 8.7 EXERCISES ----- 404 8.7.1 HIGH-PRESSURE DISTILLATION * 404 8.8 SOLUTIONS ----- 405 8.8.1 HIGH-PRESSURE DISTILLATION * 405 INDEX* 415
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spellingShingle	Reactive and membrane-assisted separations Trennverfahren (DE-588)4078395-9 gnd Membranverfahren (DE-588)4231727-7 gnd
subject_GND	(DE-588)4078395-9 (DE-588)4231727-7
title	Reactive and membrane-assisted separations
title_auth	Reactive and membrane-assisted separations
title_exact_search	Reactive and membrane-assisted separations
title_full	Reactive and membrane-assisted separations edited by Philip Lutze and Andrzej Górak
title_fullStr	Reactive and membrane-assisted separations edited by Philip Lutze and Andrzej Górak
title_full_unstemmed	Reactive and membrane-assisted separations edited by Philip Lutze and Andrzej Górak
title_short	Reactive and membrane-assisted separations
title_sort	reactive and membrane assisted separations
topic	Trennverfahren (DE-588)4078395-9 gnd Membranverfahren (DE-588)4231727-7 gnd
topic_facet	Trennverfahren Membranverfahren
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work_keys_str_mv	AT lutzephilip reactiveandmembraneassistedseparations AT gorakandrzej reactiveandmembraneassistedseparations

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