Verfügbarkeit: Process technology | Technische Universität München

Process technology: an introduction

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Bibliographische Detailangaben
Beteilige Person:	Haan, André B. de 1964- (VerfasserIn)
Format:	Buch
Sprache:	Englisch
Veröffentlicht:	Berlin [u.a.] De Gruyter 2015
Schriftenreihe:	de Gruyter graduate
Schlagwörter:	Verfahrenstechnik
Links:	http://deposit.dnb.de/cgi-bin/dokserv?id=4648950&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=027991756&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
Umfang:	XVI, 524 S. Ill., graph. Darst. 240 mm x 170 mm
ISBN:	9783110336719 9783110336726 9783110382785

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Datensatz im Suchindex

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adam_text	CONTENTS PREFACE V 1 THE CHEMICAL INDUSTRY 1 1.1 INTRODUCTION 1 1.2 GENERAL CHARACTERISTICS OF THE CHEMICAL INDUSTRY SEGMENTS 3 1.3 MAJOR RAW MATERIALS 5 1.4 PRODUCTION STRUCTURE OFTHE CHEMICAL INDUSTRY 5 2 THE STRUCTURE OF CHEMICAL AND BIOCHEMICAL PROCESS SYSTEMS 11 2.1 STRUCTURE OF CHEMICAL AND BIOCHEMICAL PROCESSES 11 2.2 CHARACTERISTICS OF PRODUCTION PROCESSES 12 2.2.1 BATCH PRODUCTION TECHNOLOGY 12 2.2.2 CONTINUOUS PROCESSES 14 2.3 UNIT OPERATIONS 16 2.3.1 REACTORS 16 2.3.2 RECOVERY, PURIFICATION, AND FRACTIONATION TECHNOLOGIES 18 2.3.3 PRODUCT FINISHING OPERATIONS 20 2.3.4 OTHER IMPORTANT PROCESS UNITS 22 2.4 PROCESS SYNTHESIS 24 3 PRINCIPLES OF CHEMICAL REACTION ENGINEERING 26 3.1 INTRODUCTION 27 3.2 CLASSIFICATION OF REACTIONS 27 3.3 RATE OF CHEMICAL REACTIONS 28 3.3.1 EFFECT OF CONCENTRATION 29 3.3.2 EFFECT OF TEMPERATURE 29 3.3.3 CHEMICAL EQUILIBRIA 30 3.4 CATALYSIS 32 3.4.1 HOMOGENEOUS CATALYSIS 32 3.4.2 HETEROGENEOUS CATALYSIS 34 3.5 CONVERSION, SELECTIVTITY, AND YIELD 36 3.5.1 THE DEGREE OF CONVERSION 36 3.5.2 SELECTIVITY AND YIELD 37 3.5.3 MULTIPLE REACTIONS 38 3.6 BASIC DESIGN EQUATIONS FOR MODEL REACTORS 40 3.6.1 MATERIAL BALANCES 40 3.6.2 THE IDEAL BATCH REACTOR 40 3.6.3 THE CONTINUOUS IDEAL STIRRED TANK REACTOR (CISTR) 42 HTTP://D-NB.INFO/1050360818 VIII CONTENTS 3.6.4 IDEAL CONTINUOUS TUBULAR REACTOR 43 3.6.5 CASCADE OF CONTINUOUS IDEAL STIRRED TANKS REACTORS - 45 3.7 HEAT EFFECTS IN MODEL REACTORS 45 3.7.1 ENERGY BALANCES 46 3.7.2 CHARACTERISTICS OF A CONTINUOUS STIRRED TANK REACTOR 46 3.7.3 BATCH REACTORS 47 4 CHEMICAL REACTORS AND THEIR INDUSTRIAL APPLICATIONS 50 4.1 INTRODUCTION 51 4.1.1 CLASSIFICATION OF REACTORS 51 4.1.2 INFLUENCE OF THE HEAT OF REACTION ON THE REACTOR TYPE 51 4.2 STIRRED TANK REACTORS 52 4.2.1 DESCRIPTION 52 4.2.2 BATCH STIRRED TANK REACTORS 53 4.2.3 CONTINUOUSLY-STIRRED TANKS 55 4.2.4 CASCADE OF STIRRED TANKS 57 4.3 TUBULAR REACTORS 58 4.3.1 INTRODUCTION 58 4.3.2 GAS-PHASE REACTORS 59 4.3.3 LIQUID-PHASE REACTORS 62 4.4 LOOP REACTORS 63 4.4.1 CONTINUOUS LOOP REACTORS 63 4.4.2 BUSS LOOP REACTOR 64 4.5 BUBBLE COLUMNS 65 4.6 FIXED AND MOVING BED REACTORS 68 4.6.1 FIXED BED REACTORS 68 4.6.2 ADIABATIC FIXED BED REACTORS 68 4.6.3 FIXED BED REACTORS WITH SUPPLY OR REMOVAL OF HEAT 69 4.6.4 MOVING BED REACTORS 71 4.7 FLUIDIZED BED REACTORS 72 4.7.1 THE FLUIDIZATION PRINCIPLE 73 4.7.2 FLUIDIZATION PROPERTIES OF TYPICAL BED SOLIDS 74 4.7.3 APPLICATIONS 75 5 BIOCHEMICAL REACTION TECHNOLOGY 79 5.1 CHARACTERISTICS OF BIOCHEMICAL PROCESSES 79 5.1.1 FERMENTATION 80 5.1.2 ENZYMATIC CONVERSIONS 84 5.2 BIOCHEMICAL REACTION ENGINEERING 87 5.2.1 PRINCIPLES 87 5.2.2 KINETICS OF BIOCHEMICAL REACTIONS 88 5.2.3 BASIC REACTOR OPERATIONS 92 CONTENTS IX 5.3 INDUSTRIAL BIOREACTORS 93 5.3.1 CLASSIFICATION 93 5.3.2 BIOREACTORS WITH MECHANICAL MIXING 94 5.3.3 BIOREACTORS WITH PNEUMATIC MIXING 95 5.3.4 BIOREACTORS FOR IMMOBILIZED ENZYMES AND CELLS 97 6 EVAPORATIVE SEPARATIONS 99 6.1 EVAPORATIVE SEPARATION 99 6.1.1 INTRODUCTION 99 6.1.2 VAPOR-LIQUID EQUILIBRIA 100 6.1.3 SEPARATION BY SINGLE-STAGE PARTIAL EVAPORATION 103 6.2 MULTISTAGE DISTILLATION 105 6.2.1 DISTILLATION CASCADES 105 6.2.2 COLUMN DISTILLATION 106 6.2.3 FEASIBLE DISTILLATION CONDITIONS 107 6.2.4 BASIC DESIGN CALCULATIONS 108 6.2.5 ENERGY REQUIREMENTS 112 6.2.6 BATCH DISTILLATION 112 6.2.7 CONTINUOUS SEPARATION OF MULTIPLE PRODUCTS 113 6.2.8 ENHANCED DISTILLATION TECHNIQUES 114 6.3 DISTILLATION EQUIPMENT 117 6.3.1 BASIC FUNCTIONS 117 6.3.2 TRAY COLUMNS 117 6.3.3 PACKED COLUMNS 121 6.3.4 CRITERIA FOR COLUMN SELECTION 125 6.4 POLYMER DEVOLATILIZATION 126 6.4.1 INTRODUCTION 126 6.4.2 BASIC MECHANISMS 127 6.4.3 MULTISTAGE OPERATION AND DEVOLATILIZATION AIDS 128 6.4.4 DEVOLATILIZATION EQUIPMENT 129 7 EXTRACTION AND LEACHING 135 7.1 LIQUID-LIQUID EXTRACTION 135 7.1.1 INTRODUCTION 135 7.1.2 LIQUID-LIQUID EQUILIBRIA 137 7.1.3 SOLVENT SELECTION 138 7.1.4 EXTRACTION SCHEMES 140 7.2 INDUSTRIAL LIQUID-LIQUID EXTRACTORS 141 7.2.1 MIXER-SETTLERS 142 7.2.2 MECHANICALLY AGITATED COLUMNS 142 7.2.3 UNAGITATED AND PULSED COLUMNS 143 X CONTENTS 7.2.4 CENTRIFUGAL EXTRACTORS 145 7.2.5 SELECTION OF AN EXTRACTOR 146 7.3 LEACHING 147 7.3.1 MECHANISM AND PROCESS OF LEACHING 147 7.3.2 SOLID-LIQUID EXTRACTORS 148 7.4 SUPERCRITICAL EXTRACTION 152 7.4.1 INTRODUCTION 152 7.4.2 PROPERTIES OF SUPERCRITICAL FLUIDS 152 7.4.3 PROCESSES AND APPLICATIONS 155 8 ABSORPTION AND STRIPPING 160 8.1 INTRODUCTION 161 8.2 THE AIM OF ABSORPTION 163 8.3 GENERAL DESIGN APPROACH 164 8.3.1 GAS SOLUBILITIES 165 8.3.2 MINIMUM ABSORBENT FLOW 167 8.3.3 NUMBER OF EQUILIBRIUM STAGES 167 8.4 BASIC CHARACTERISTICS OF ABSORBERS 168 8.5 INDUSTRIAL CONTACTORS 169 8.5.1 PACKED COLUMNS 169 8.5.2 TRAY COLUMNS 171 8.5.3 SPRAY TOWERS 173 8.5.4 BUBBLE COLUMNS 173 9 ADSORPTION AND ION EXCHANGE 176 9.1 INTRODUCTION 177 9.2 ADSORPTION FUNDAMENTALS 178 9.2.1 INDUSTRIAL ADSORBENTS 178 9.2.2 ADSORPTION EQUILIBRIUM 182 9.2.3 ADSORPTION KINETICS 185 9.2.4 FIXED-BED ADSORPTION 186 9.3 BASIC ADSORPTION CYCLES 188 9.3.1 TEMPERATURE SWING 189 9.3.2 PRESSURE SWING 190 9.3.3 INERT AND DISPLACEMENT PURGE CYCLES 190 9.4 PRINCIPLES OF ION EXCHANGE 191 9.4.1 ION-EXCHANGE RESINS 191 9.4.2 EQUILIBRIA AND SELECTIVITY 193 9.5 ION-EXCHANGE PROCESSES 194 CONTENTS XI 10 SOLID-LIQUID SEPARATION 197 10.1 INTRODUCTION 197 10.2 GRAVITY SEDIMENTATION 201 10.2.1 SEDIMENTATION MECHANISMS 201 10.2.2 RATE OF SEDIMENTATION 203 10.2.3 DESIGN OF CONTINUOUS SEDIMENTATION TANKS 205 10.2.4 GRAVITY SEDIMENTATION EQUIPMENT 206 10.3 CENTRIFUGAL SEDIMENTATION 207 10.3.1 PARTICLE VELOCITY IN A CENTRIFUGAL FIELD 207 10.3.2 SEDIMENTING CENTRIFUGES 208 10.3.3 BOWL CENTRIFUGE SEPARATION CAPABILITY 210 10.3.4 HYDROCYCLONES 211 10.4 FILTRATION FUNDAMENTALS 214 10.4.1 FLOW THROUGH PACKED BEDS 214 10.4.2 CAKE FILTRATION 215 10.4.3 CONSTANT PRESSURE AND CONSTANT RATE FILTRATION 216 10.5 FILTRATION EQUIPMENT 217 10.5.1 CONTINUOUS LARGE-SCALE VACUUM FILTERS 218 10.5.2 BATCH VACUUM FILTERS 220 10.5.3 PRESSURE FILTERS 220 10.6 FILTER MEDIA 223 10.7 CENTRIFUGAL FILTRATION 224 10.8 DEEP-BED FILTRATION 226 11 PARTICLE REMOVAL FROM GASES 228 11.1 INTRODUCTION 229 11.1.1 SEPARATION MECHANISMS 229 11.2 COLLECTING EFFICIENCY 231 11.3 GRAVITATIONAL SEPARATORS 233 11.4 CYCLONES 234 11.5 ELECTROSTATIC PRECIPITATION 237 11.5.1 PRINCIPLES 237 11.5.2 EQUIPMENT AND COLLECTING EFFICIENCY 238 11.6 PARTICLE INTERCEPTION MECHANISMS 241 11.7 DRY-IMPINGEMENT SEPARATORS 242 11.7.1 DEEP-BED FILTRATION 243 11.7.2 SURFACE FILTERS 244 11.7.3 LAMELLAR PLATE SEPARATORS 245 11.8 WET SCRUBBERS 246 XII * CONTENTS 12 MEMBRANE SEPARATIONS 251 12.1 INTRODUCTION 251 12.2 PRINCIPLES 253 12.2.1 MEMBRANES 253 12.2.2 MODULES 256 12.2.3 FLUX, PERMEABILITY AND SELECTIVITY 258 12.2.4 CONCENTRATION POLARIZATION AND FOULING 260 12.2.5 SYSTEM DESIGN AND CASCADES 261 12.3 MEMBRANE FILTRATION PROCESSES 263 12.3.1 MICROFILTRATION 263 12.3.2 ULTRAFILTRATION 264 12.3.3 REVERSE OSMOSIS AND NANOFILTRATION 265 12.4 SOLUBILITY DRIVEN PROCESSES 267 12.4.1 GAS AND VAPOR PERMEATION 267 12.4.2 PERVAPORATION 269 12.5 ELECTRODIALYSIS 271 13 CRYSTALLIZATION AND PRECIPITATION 273 13.1 INTRODUCTION 273 13.2 FUNDAMENTALS 275 13.2.1 SOLID-LIQUID EQUILIBRIA 275 13.2.2 SUPERSATURATION AND METASTABILITY 276 13.2.3 NUCLEATION 277 13.2.4 CRYSTAL GROWTH 279 13.2.5 EFFECTS OF IMPURITIES 281 13.3 CRYSTAL CHARACTERISTICS 281 13.3.1 MORPHOLOGY 282 13.3.2 CRYSTAL SIZE DISTRIBUTION 283 13.3.3 SIZE CONTROL 283 13.4 CRYSTALLIZATION FROM SOLUTIONS 284 13.4.1 BASIC OPERATIONS 284 13.4.2 COOLING CRYSTALLIZERS 285 13.4.3 EVAPORATING AND VACUUM CRYSTALLIZERS 286 13.4.4 CONTINUOUS CRYSTALLIZERS 287 13.5 CRYSTALLIZER MODELING AND DESIGN 288 13.5.1 BASIC YIELD CALCULATIONS 289 13.5.2 POPULATION BALANCES 291 13.5.3 THE WELL-MIXED MSMPR CRYSTALLIZER 292 13.6 PRECIPITATION 293 13.7 MELT CRYSTALLIZATION 294 CONTENTS * XIII 14 SOLIDS FINISHING TECHNOLOGIES 297 14.1 OVERVIEW 297 14.2 DRYING 298 14.2.1 CLASSIFICATION OF DRYING OPERATIONS 299 14.2.2 DRYING MECHANISMS 300 14.2.3 DIRECT-HEAT DRYERS 302 14.2.4 CONTACT DRYERS 307 14.2.5 OTHER DRYING METHODS 309 14.3 SIZE REDUCTION 310 14.3.1 PARTICLE BREAKAGE 311 14.3.2 METHODS AND SELECTION CRITERIA FOR SIZE REDUCTION 313 14.3.3 SIZE-REDUCTION EQUIPMENT 315 14.4 SIZE ENLARGEMENT 320 14.4.1 AGGLOMERATION PRINCIPLES 320 14.4.2 METHODS OF SIZE ENLARGEMENT 322 14.4.3 GROWTH/TUMBLE AGGLOMERATION 322 14.4.4 PRESSURE AGGLOMERATION 325 14.4.5 OTHER AGGLOMERATION TECHNIQUES 327 14.5 CONVEYING 327 14.5.1 TRANSPORTATION SYSTEMS 327 14.5.2 MECHANICAL CONVEYORS 328 14.5.3 PNEUMATIC CONVEYING 332 15 PRODUCT TECHNOLOGY 337 15.1 CHEESE-COATING TECHNOLOGY 337 15.1.1 CHEESE PRODUCTION 337 15.1.2 COATINGS 338 15.1.3 APPLICATION TECHNIQUES 338 15.2 ENZYME FORMULATION 341 15.2.1 INTRODUCTION 341 15.2.2 GLUCOSE ISOMERASE IMMOBILIZATION 342 15.2.3 DETERGENT ENZYMES 344 15.2.4 APPLICATION RESEARCH 347 15.3 COMPOUNDING 349 15.3.1 INTRODUCTION 349 15.3.2 COMPOUND FORMULATION 350 15.3.3 ADDITIVES 351 15.3.4 POLYMER-MIXING MECHANISMS 355 15.3.5 COMPOUNDING EQUIPMENT 356 15.4 POLYMER PROCESSING 361 15.4.1 EXTRUSION PROCESSES 361 15.4.2 INJECTION AND BLOW MOLDING 363 XIV CONTENTS 15.4.3 MELT AND GEL SPINNING 366 15.4.4 FILM PRODUCTION TECHNIQUES 368 15.4.5 THERMOFORMING 371 15.4.6 FOAM EXTRUSION 372 16 DEVELOPMENT AND ENGINEERING 374 16.1 INTRODUCTION 375 16.1.1 GENERAL ASPECTS OF SCALING UP 375 16.1.2 WAYS OF SCALING UP 376 16.2 DEVELOPMENT AND SCALE-UP IN THE BULK CHEMICAL INDUSTRY 377 16.2.1 BASIC COURSE OF PROCESS DEVELOPMENT 377 16.2.2 LABORATORY AND BENCH SCALE RESEARCH 379 16.2.3 PILOT PLANT RESEARCH AND DEMONSTRATION PLANTS 382 16.2.4 FEASIBILITY EVALUATION 384 16.3 ENGINEERING AND CONSTRUCTION 384 16.3.1 INTRODUCTION 384 16.3.2 CONCEPTUAL ENGINEERING 387 16.3.3 BASIC ENGINEERING 389 16.3.4 DETAILED ENGINEERING, PROCUREMENT, AND CONSTRUCTION 391 16.4 DEVELOPMENT AND SCALE-UP OF FINE CHEMICAL PROCESSES 393 16.4.1 DIFFERENCES BETWEEN BULK AND FINE CHEMICAL INDUSTRY 393 16.4.2 FINE CHEMICAL PROCESS DEVELOPMENT 394 16.4.3 SCALE-UP CHALLENGES IN MULTIPURPOSE PLANTS 395 16.4.4 FUTURE DEVELOPMENTS 398 17 HYDRODYNAMIC ASPECTS OF SCALE-UP 400 17.1 INTRODUCTION 401 17.2 MIXING AND STIRRING 403 17.2.1 BASIC PRINCIPLES 403 17.2.2 LIQUID MIXING EQUIPMENT 404 17.2.3 SINGLE PHASE SYSTEMS 408 17.2.4 MULTIPHASE SYSTEMS 408 17.2.5 SCALE-UP AND SCALE-DOWN PROCEDURES 411 17.3 SCALE-UP METHODOLOGY FOR MIXING PROCESSES 412 17.3.1 DIMENSIONAL, SIMILARITY, AND REGIME ANALYSIS 413 17.3.2 IMPORTANT DIMENSIONLESS NUMBERS FOR MIXING PROCESSES 415 17.4 COMPUTATIONAL FLUID DYNAMICS (CFD) 416 17.4.1 INTRODUCTION 416 17.4.2 BASIC PRINCIPLES 416 17.4.3 APPLICATIONS 419 CONTENTS * XV 18 PROCESS SAFETY 422 18.1 SAFETY PROBLEMS IN CHEMICAL PLANTS 423 18.2 DEVELOPMENT, DESIGN, AND CONSTRUCTION OF SAFE PLANTS 425 18.2.1 INTRODUCTION 425 18.2.2 SAFETY ASSESSMENT 425 18.2.3 STRUCTURE OF SAFETY STUDIES 427 18.3 IDENTIFICATION OF HAZARDOUS PROPERTIES OF SUBSTANCES 429 18.3.1 PURE COMPONENTS 429 18.3.2 EXOTHERMIC CHEMICAL REACTIONS 431 18.4 INHERENTLY SAFER PLANT DESIGN 433 18.4.1 THE CONCEPT AND ITS BENEFITS 433 18.4.2 THE ROAD TO FRIENDLIER PLANTS 434 A BASE CHEMICALS 437 A.L AMMONIA 437 A.1.1 GENERAL DESCRIPTION 437 A.1.2 DESULPHURIZATION 438 A.L.3 PRIMARY AND SECONDARY REFORMING 438 A.L.4 SHIFT CONVERSION 438 A.1.5 CARBON DIOXIDE REMOVAL 439 A.L.6 FINAL PURIFICATION 439 A.L.7 AMMONIA SYNTHESES AND RECOVERY 440 A.2 INORGANIC ACIDS 441 A.2.1 NITRIC ACID 441 A.2.2 SULFURIC ACID 442 A.3 AMMONIA-BASED PRODUCTS 444 A.3.1 CAPROLACTAM 444 A.3.2 ACRYLONITRILE 446 A.3.3 UREA 447 A.3.4 MELAMINE 449 A.4 NAPTHA CRACKING 450 A.4.1 BASIC PRINCIPLES 450 A.4.2 HOT SECTION 451 A.4.3 COLD SECTION 453 A.4.4 COKE FORMATION 454 A.5 OXIDATION PROCESSES 454 A.5.1 TOLUENE OXIDATION 454 A.5.2 CYCLOHEXANE OXIDATION 456 A.5.3 N-BUTANE OXIDATION 457 A.6 FISCHER-TROPSCH 459 A.6.1 SYNTHESIS GAS PRODUCTION 460 A.6.2 FISCHER-TROPSCH SYNTHESIS 461 XVI CONTENTS B POLYMER MANUFACTURING 465 B.L POLYETHYLENE 465 B.L.L HIGH-PRESSURE PROCESS 465 B.L.2 SOLUTION POLYMERIZATION 466 B.L.3 SLURRY PROCESS 467 B.L.4 GAS-PHASE PROCESS 468 B.2 POLYPROPYLENE 471 B.2.1 GAS-PHASE PROCESS 471 B.2.2 SLURRY PROCESS 472 B.3 EPDM 474 B.4 POLYAMIDES 476 B.4.1 INTRODUCTION 476 B.4.2 NYLON 6 477 B.4.3 NYLON 4,6 478 B.5 SATURATED AND UNSATURATED POLYESTERS 479 B.5.1 SATURATED POLYESTERS 479 B.5.2 UNSATURATED POLYESTERS 481 B.5.3 POWDER COATINGS 482 C LIFE SCIENCE PRODUCTS 484 C.L BENZALDEHYDE-BASED PRODUCTS 485 C.L.L AMINO ACIDS 485 C.L.2 CINNAMON ALDEHYDE AND CINNAMYL ALCOHOL 487 C.L.3 BENZYLALCOHOL 488 C.2 A-PICOLINE 488 C.3 ASPARTAME 491 C.4 PENICILLIN 492 C.5 SYNTHETIC ANTIBIOTICS 495 C.5.1 INTRODUCTION 495 C.5.2 CEPHALOSPORINS 496 C.5.3 AMOXILLINS 497 C.6 GLYOXYLIC ACID 498 C.7 FOOD ADDITIVES 500 C.7.1 QUININE 500 C.7.2 ENZYMES 501 REFERENCES AND FURTHER READING 503 INDEX 512
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author	Haan, André B. de 1964-
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id	DE-604.BV042557993
illustrated	Illustrated
indexdate	2024-12-20T17:14:19Z
institution	BVB
isbn	9783110336719 9783110336726 9783110382785
language	English
oai_aleph_id	oai:aleph.bib-bvb.de:BVB01-027991756
oclc_num	908620490
open_access_boolean
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physical	XVI, 524 S. Ill., graph. Darst. 240 mm x 170 mm
publishDate	2015
publishDateSearch	2015
publishDateSort	2015
publisher	De Gruyter
record_format	marc
series2	de Gruyter graduate
spellingShingle	Haan, André B. de 1964- Process technology an introduction Verfahrenstechnik (DE-588)4062781-0 gnd
subject_GND	(DE-588)4062781-0
title	Process technology an introduction
title_auth	Process technology an introduction
title_exact_search	Process technology an introduction
title_full	Process technology an introduction André de Haan
title_fullStr	Process technology an introduction André de Haan
title_full_unstemmed	Process technology an introduction André de Haan
title_short	Process technology
title_sort	process technology an introduction
title_sub	an introduction
topic	Verfahrenstechnik (DE-588)4062781-0 gnd
topic_facet	Verfahrenstechnik
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