Verfügbarkeit: Process technology | Technische Universität München

Process technology: an introduction

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Bibliographische Detailangaben
Beteiligte Personen:	Haan, André B. de 1964- (VerfasserIn), Padding, Johan T. 1975- (VerfasserIn)
Format:	Buch
Sprache:	Englisch
Veröffentlicht:	Berlin ; Boston De Gruyter [2022]
Ausgabe:	2nd edition
Schriftenreihe:	De Gruyter graduate
Schlagwörter:	Verfahrenstechnik Chemie-Ingenieurwesen Chemische Technik TB: Textbook
Links:	https://www.degruyter.com/books/9783110712438 http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=033246172&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
Umfang:	XVII, 577 Seiten Illustrationen, Diagramme 24 cm x 17 cm
ISBN:	3110712431 9783110712438

Internformat

MARC


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245	1	0	\|a Process technology \|b an introduction \|c André B. de Haan, Johan T. Padding
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Datensatz im Suchindex

_version_	1819328033162526720
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 OF THE CHEMICAL INDUSTRY - 6 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 ---- 13 2.3 UNIT OPERATIONS ----- 15 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 ---- 27 3.1 INTRODUCTION ---- 27 3.2 CLASSIFICATION OF REACTIONS - 28 3.3 RATE OF CHEMICAL REACTIONS ---- 29 3.3.1 EFFECT OF CONCENTRATION ---- 29 3.3.2 EFFECT OF TEMPERATURE - 30 3.3.3 CHEMICAL EQUILIBRIA ---- 31 3.4 CATALYSIS ---- 33 3.4.1 HOMOGENEOUS CATALYSIS ---- 33 3.4.2 HETEROGENEOUS CATALYSIS ---- 35 3.5 CONVERSION, SELECTIVTITY AND YIELD --- 37 3.5.1 CONVERSION ---- 37 3.5.2 SELECTIVITY AND YIELD ---- 38 3.5.3 MULTISTEP REACTIONS ---- 39 3.6 BASIC DESIGN EQUATIONS FOR MODEL REACTORS ---- 41 3.6.1 MOLAR BALANCES ---- 41 3.6.2 THE IDEAL BATCH REACTOR ---- 42 3.6.3 THE CONTINUOUS IDEAL STIRRED TANK REACTOR ---- 44 3.6.4 IDEAL CONTINUOUS PLUG FLOW REACTOR ---- 45 3.6.5 CASCADE OF CONTINUOUS IDEAL STIRRED TANKS REACTORS ---- 47 VIII - - CONTENTS 3.7 3.7.1 3.7.2 3.7.3 HEAT EFFECTS IN MODEL REACTORS - 48 GENERAL HEAT BALANCE - 48 HEAT BALANCE IN A CONTINUOUS IDEAL STIRRED TANK REACTOR -----49 HEAT BALANCE IN A BATCH REACTOR - 50 4 4.1 4.1.1 4.1.2 4.2 4.2.1 4.2.2 4.2.3 4.2.4 4.3 4.3.1 4.3.2 4.3.3 4.4 4.4.1 4.4.2 4.5 4.6 4.6.1 4.6.2 4.6.3 CHEMICAL REACTORS AND THEIR INDUSTRIAL APPLICATIONS - 53 INTRODUCTION ---- 53 CLASSIFICATION OF REACTORS - 53 INFLUENCE OF HEAT OF REACTION ON REACTOR TYPE - 53 STIRRED TANK REACTORS ---- 54 DESCRIPTION ---- 54 BATCH STIRRED TANK REACTORS ---- 55 CONTINUOUS STIRRED TANKS ---- 57 CASCADE OF STIRRED TANKS - 60 TUBULAR REACTORS ---- 61 INTRODUCTION ---- 61 GAS-PHASE REACTORS ---- 62 LIQUID-PHASE REACTORS - 64 LOOP REACTORS ---- 65 CONTINUOUS LOOP REACTORS ---- 66 BUSS LOOP REACTOR ---- 66 BUBBLE COLUMNS ---- 68 FIXED AND MOVING BED REACTORS ---- 70 FIXED BED REACTORS ---- 70 ADIABATIC FIXED BED REACTORS ---- 71 FIXED BED REACTORS WITH SUPPLY OR REMOVAL OF HEAT ---- 72 4.6.4 4.7 4.7.1 4.7.2 4.7.3 4.8 4.8.1 4.8.2 4.8.3 MOVING BED REACTORS ---- 74 FLUIDIZED BED REACTORS ---- 75 THE FLUIDIZATION PRINCIPLE ---- 76 FLUIDIZATION PROPERTIES OF TYPICAL BED SOLIDS ---- 78 APPLICATIONS ---- 78 ELECTROCHEMICAL REACTORS ---- 82 BASIC ELEMENTS OF AN ELECTROCHEMICAL REACTOR ---- 82 DESIGN OF AN ELECTROCHEMICAL REACTOR - 83 APPLICATIONS ---- 85 5 5.1 5.1.1 5.1.2 5.2 BIOCHEMICAL REACTION TECHNOLOGY ---- 87 CHARACTERISTICS OF BIOCHEMICAL PROCESSES - 87 FERMENTATION ---- 88 ENZYMATIC CONVERSIONS ---- 93 BIOCHEMICAL REACTION ENGINEERING ---- 96 CONTENTS - IX 5.2.1 PRINCIPLES ---- 96 5.2.2 KINETICS OF BIOCHEMICAL REACTIONS ---- 96 5.2.3 BASIC REACTOR OPERATIONS ----- 100 5.3 INDUSTRIAL BIOREACTORS ----- 102 5.3.1 CLASSIFICATION - 102 5.3.2 BIOREACTORS WITH MECHANICAL MIXING ---- 103 5.3.3 BIOREACTORS WITH PNEUMATIC MIXING ---- 104 5.3.4 BIOREACTORS FOR IMMOBILIZED ENZYMES AND CELLS ---- 106 6 EVAPORATIVE SEPARATIONS - 109 6.1 EVAPORATIVE SEPARATION - 109 6.1.1 INTRODUCTION ---- 109 6.1.2 VAPOR-LIQUID EQUILIBRIA ---- 110 6.1.3 SEPARATION BY SINGLE-STAGE PARTIAL EVAPORATION - 113 6.2 MULTISTAGE DISTILLATION ----- 115 6.2.1 DISTILLATION CASCADES ---- 115 6.2.2 COLUMN DISTILLATION ---- 116 6.2.3 FEASIBLE DISTILLATION CONDITIONS ---- 118 6.2.4 BASIC DESIGN CALCULATIONS ---- 119 6.2.5 ENERGY REQUIREMENTS ---- 122 6.2.6 BATCH DISTILLATION ---- 123 6.2.7 CONTINUOUS SEPARATION OF MULTIPLE PRODUCTS ---- 125 6.2.8 ENHANCED DISTILLATION TECHNIQUES ---- 125 6.3 DISTILLATION EQUIPMENT ----- 127 6.3.1 BASIC FUNCTIONS ---- 127 6.3.2 TRAY COLUMNS ---- 128 6.3.3 PACKED COLUMNS - 132 6.3.4 CRITERIA FOR COLUMN SELECTION - 137 6.4 POLYMER DEVOLATILIZATION ---- 137 6.4.1 INTRODUCTION ---- 137 6.4.2 BASIC MECHANISMS ---- 138 6.4.3 MULTISTAGE OPERATION AND DEVOLATILIZATION AIDS ----- 140 6.4.4 DEVOLATILIZATION EQUIPMENT ---- 141 7 EXTRACTION AND LEACHING ---- 147 7.1 LIQUID-LIQUID EXTRACTION ---- 147 7.1.1 INTRODUCTION ---- 147 7.1.2 LIQUID-LIQUID EQUILIBRIA ---- 149 7.1.3 SOLVENT SELECTION - 151 7.1.4 EXTRACTION SCHEMES ---- 152 7.2 INDUSTRIAL LIQUID-LIQUID EXTRACTORS ----- 154 7.2.1 MIXER SETTLERS ----- 154 X - CONTENTS 7.2.2 7.2.3 7.2.4 7.2.5 7.3 7.3.1 7.3.2 7.4 7.4.1 7.4.2 7.4.3 MECHANICALLY AGITATED COLUMNS ---- 155 UNAGITATED AND PULSED COLUMNS ---- 155 CENTRIFUGAL EXTRACTORS ---- 157 SELECTION OF AN EXTRACTOR ---- 158 LEACHING ---- 159 MECHANISM AND PROCESS OF LEACHING ---- 160 SOLID-LIQUID EXTRACTORS ---- 161 SUPERCRITICAL EXTRACTION ---- 165 INTRODUCTION ---- 165 PROPERTIES OF SUPERCRITICAL FLUIDS ---- 166 PROCESSES AND APPLICATIONS ---- 167 8 8.1 8.2 8.3 8.3.1 8.3.2 8.3.3 8.4 8.5 8.5.1 8.5.2 8.5.3 8.5.4 ABSORPTION AND STRIPPING ---- 173 INTRODUCTION ---- 173 THE AIM OF ABSORPTION ---- 175 GENERAL DESIGN APPROACH ---- 176 GAS SOLUBILITIES ---- 177 MINIMUM ABSORBENT FLOW ---- 179 NUMBER OF EQUILIBRIUM STAGES ---- 179 BASIC CHARACTERISTICS OF ABSORBERS ---- 180 INDUSTRIAL CONTACTORS ---- 181 PACKED COLUMNS ---- 182 TRAY COLUMNS ---- 183 SPRAY TOWERS - 185 BUBBLE COLUMNS ---- 186 9 9.1 9.2 9.2.1 9.2.2 9.2.3 9.2.4 9.3 9.3.1 9.3.2 9.3.3 9.4 9.4.1 9.4.2 9.5 ADSORPTION AND ION EXCHANGE - 189 INTRODUCTION ---- 189 ADSORPTION FUNDAMENTALS ---- 191 INDUSTRIAL ADSORBENTS ---- 191 ADSORPTION EQUILIBRIUM ---- 194 ADSORPTION KINETICS ---- 196 FIXED BED ADSORPTION ---- 198 BASIC ADSORPTION CYCLES ---- 200 TEMPERATURE SWING ---- 201 PRESSURE SWING ---- 202 INERT AND DISPLACEMENT PURGE CYCLES ---- 203 PRINCIPLES OF ION EXCHANGE ---- 204 ION EXCHANGE RESINS ---- 204 EQUILIBRIA AND SELECTIVITY --- 205 ION EXCHANGE PROCESSES ---- 207 CONTENTS - XI 10 SOLID-LIQUID SEPARATION ---- 211 10.1 INTRODUCTION ---- 211 10.2 GRAVITY SEDIMENTATION ---- 215 10.2.1 SEDIMENTATION MECHANISMS - 216 10.2.2 RATE OF SEDIMENTATION ---- 217 10.2.3 DESIGN OF CONTINUOUS SEDIMENTATION TANKS 220 10.2.4 GRAVITY SEDIMENTATION EQUIPMENT ----- 221 10.3 CENTRIFUGAL SEDIMENTATION ------ 223 10.3.1 PARTICLE VELOCITY IN A CENTRIFUGAL FIELD ----- 223 10.3.2 SEDIMENTING CENTRIFUGES ----- 223 10.3.3 BOWL CENTRIFUGE SEPARATION CAPABILITY ----- 226 10.3.4 HYDROCYCLONES ---- 227 10.4 FILTRATION FUNDAMENTALS ---- 229 10.4.1 FLOW THROUGH PACKED BEDS ---- 229 10.4.2 CAKE FILTRATION ---- 231 10.4.3 CONSTANT PRESSURE AND CONSTANT RATE FILTRATION ---- 232 10.5 FILTRATION EQUIPMENT ---- 233 10.5.1 CONTINUOUS LARGE-SCALE VACUUM FILTERS ---- 234 10.5.2 BATCH VACUUM FILTERS ----- 235 10.5.3 PRESSURE FILTERS ---- 236 10.6 FILTER MEDIA ---- 239 10.7 CENTRIFUGAL FILTRATION ---- 240 10.8 DEEP BED FILTRATION ---- 242 11 PARTICLE REMOVAL FROM GASES ---- 245 11.1 INTRODUCTION ---- 245 11.1.1 SEPARATION MECHANISMS ----- 245 11.2 COLLECTING EFFICIENCY - 246 11.3 GRAVITATIONAL SEPARATORS ----- 248 11.4 CYCLONES ---- 251 11.5 ELECTROSTATIC PRECIPITATION ---- 253 11.5.1 PRINCIPLES ---- 253 11.5.2 EQUIPMENT AND COLLECTING EFFICIENCY ----- 255 11.6 PARTICLE INTERCEPTION MECHANISMS ---- 257 11.7 DRY IMPINGEMENT SEPARATORS ---- 259 11.7.1 DEEP BED FILTRATION ---- 260 11.7.2 SURFACE FILTERS ---- 261 11.7.3 LAMELLAR PLATE SEPARATORS ---- 262 11.8 WET SCRUBBERS ---- 263 XII CONTENTS 12 MEMBRANE SEPARATIONS ---- 269 12.1 INTRODUCTION ----- 269 12.2 PRINCIPLES - 272 12.2.1 MEMBRANES ----- 272 12.2.2 MODULES ---- 274 12.2.3 FLUX, PERMEABILITY AND SELECTIVITY ---- 276 12.2.4 CONCENTRATION POLARIZATION AND FOULING 278 12.2.5 SYSTEM DESIGN AND CASCADES ----- 280 12.3 MEMBRANE FILTRATION PROCESSES ----- 282 12.3.1 MICROFILTRATION ---- 282 12.3.2 ULTRAFILTRATION ---- 283 12.3.3 REVERSE OSMOSIS AND NANOFILTRATION ---- 284 12.4 SOLUBILITY-DRIVEN PROCESSES ---- 286 12.4.1 GAS AND VAPOR PERMEATION ---- 286 12.4.2 PERVAPORATION ---- 288 12.5 ELECTRODIALYSIS ---- 290 13 CRYSTALLIZATION AND PRECIPITATION ---- 293 13.1 INTRODUCTION ---- 293 13.2 FUNDAMENTALS ---- 295 13.2.1 SOLID-LIQUID EQUILIBRIA ---- 296 13.2.2 SUPERSATURATION AND METASTABILITY ----- 297 13.2.3 NUCLEATION ---- 298 13.2.4 CRYSTAL GROWTH ---- 300 13.2.5 EFFECTS OF IMPURITIES ---- 302 13.3 CRYSTAL CHARACTERISTICS ----- 302 13.3.1 MORPHOLOGY ---- 303 13.3.2 CRYSTAL SIZE DISTRIBUTION ---- 304 13.3.3 SIZE CONTROL ---- 304 13.4 TYPES OF SOLUTION CRYSTALLIZERS ---- 305 13.4.1 BASIC OPERATIONS ---- 305 13.4.2 COOLING CRYSTALLIZERS ---- 306 13.4.3 EVAPORATING AND VACUUM CRYSTALLIZERS ---- 307 13.4.4 CONTINUOUS CRYSTALLIZERS ---- 308 13.5 CRYSTALLIZER MODELING AND DESIGN ---- 309 13.5.1 BASIC YIELD CALCULATIONS ---- 310 13.5.2 POPULATION BALANCES ---- 312 13.5.3 THE WELL-MIXED MSMPR CRYSTALLIZER ----- 314 13.6 PRECIPITATION ---- 314 13.7 MELT CRYSTALLIZATION ---- 315 CONTENTS - XIII 14 SOLIDS FINISHING TECHNOLOGIES ---- 321 14.1 OVERVIEW ---- 321 14.2 DRYING ---- 322 14.2.1 CLASSIFICATION OF DRYING OPERATIONS - 323 14.2.2 DRYING MECHANISMS - 324 14.2.3 DIRECT HEAT DRYERS ---- 327 14.2.4 CONTACT DRYERS ---- 331 14.2.5 OTHER DRYING METHODS ---- 335 14.3 SIZE REDUCTION - 336 14.3.1 PARTICLE BREAKAGE ---- 337 14.3.2 METHODS AND SELECTION CRITERIA FOR SIZE REDUCTION 339 14.3.3 SIZE REDUCTION EQUIPMENT -- 341 14.4 SIZE ENLARGEMENT ----- 345 14.4.1 AGGLOMERATION PRINCIPLES -- 346 14.4.2 METHODS OF SIZE ENLARGEMENT ---- 348 14.4.3 GROWTH/TUMBLE AGGLOMERATION -- 348 14.4.4 PRESSURE AGGLOMERATION ---- 350 14.4.5 OTHER AGGLOMERATION TECHNIQUES ---- 352 14.5 CONVEYING ---- 353 14.5.1 TRANSPORTATION SYSTEMS ----- 353 14.5.2 MECHANICAL CONVEYORS ----- 354 14.5.3 PNEUMATIC CONVEYING ---- 358 15 PRODUCT TECHNOLOGY ---- 363 15.1 CHEESE COATING TECHNOLOGY ---- 363 15.1.1 CHEESE PRODUCTION ---- 363 15.1.2 COATINGS ---- 364 15.1.3 APPLICATION TECHNIQUES ---- 364 15.2 ENZYME FORMULATION ----- 367 15.2.1 INTRODUCTION ---- 367 15.2.2 GLUCOSE ISOMERASE IMMOBILIZATION ---- 368 15.2.3 DETERGENT ENZYMES ---- 370 15.2.4 APPLICATION RESEARCH ---- 373 15.3 COMPOUNDING ----- 375 15.3.1 INTRODUCTION ---- 375 15.3.2 COMPOUND FORMULATION ---- 376 15.3.3 ADDITIVES ---- 378 15.3.4 POLYMER MIXING MECHANISMS ----- 381 15.3.5 COMPOUNDING EQUIPMENT ----- 383 15.4 POLYMER PROCESSING ----- 387 15.4.1 EXTRUSION PROCESSES ---- 388 15.4.2 INJECTION AND BLOW MOLDING ---- 389 XIV - - CONTENTS 15.4.3 15.4.4 15.4.5 15.4.6 MELT AND GEL SPINNING ---- 392 FILM PRODUCTION TECHNIQUES ---- 394 THERMOFORMING ---- 398 FOAM EXTRUSION ---- 399 16 16.1 16.1.1 16.1.2 16.2 DEVELOPMENT, SCALE-UP AND ENGINEERING - 401 INTRODUCTION ---- 401 GENERAL ASPECTS OF SCALING UP ---- 401 WAYS OF SCALING UP ---- 402 DEVELOPMENT AND SCALE-UP IN THE BULK CHEMICAL INDUSTRY ---- 403 16.2.1 16.2.2 16.2.3 16.2.4 16.3 16.3.1 16.3.2 16.3.3 16.3.4 16.4 16.4.1 16.4.2 16.4.3 16.4.4 BASIC COURSE OF PROCESS DEVELOPMENT ---- 403 LABORATORY AND BENCH SCALE RESEARCH ---- 406 PILOT PLANT RESEARCH AND DEMONSTRATION PLANTS ---- 408 FEASIBILITY EVALUATION - 410 ENGINEERING AND CONSTRUCTION ---- 412 INTRODUCTION ---- 412 CONCEPTUAL ENGINEERING ---- 414 BASIC ENGINEERING ---- 415 DETAILED ENGINEERING, PROCUREMENT AND CONSTRUCTION ---- 417 DEVELOPMENT AND SCALE-UP OF FINE CHEMICAL PROCESSES ---- 421 DIFFERENCES BETWEEN BULK AND FINE CHEMICAL INDUSTRY ---- 421 FINE CHEMICAL PROCESS DEVELOPMENT ---- 421 SCALE-UP CHALLENGES IN MULTIPURPOSE PLANTS ---- 423 FUTURE DEVELOPMENTS ---- 424 17 17.1 17.2 17.2.1 17.2.2 17.2.3 17.2.4 17.2.5 17.3 17.3.1 17.3.2 17.3.3 17.3.4 17.4 HYDRODYNAMIC ASPECTS OF SCALE-UP ---- 427 INTRODUCTION ---- 427 HYDRODYNAMIC FLOWS IN PROCESS EQUIPMENT ---- 428 SINGLE-PHASE FLOWS ---- 428 MULTIPHASE FLOWS ---- 429 FLOWS IN MIXERS AND STIRRERS ---- 430 FLOWS IN BUBBLE COLUMNS ---- 438 FLOWS IN FLUIDIZED BEDS ---- 440 SCALE-UP ---- 440 DIMENSIONAL, SIMILARITY AND REGIME ANALYSIS ---- 441 IMPORTANT DIMENSIONLESS NUMBERS FOR MIXING VESSELS ---- 442 IMPORTANT DIMENSIONLESS NUMBERS FOR BUBBLE COLUMNS ---- 443 IMPORTANT DIMENSIONLESS NUMBERS FOR FLUIDIZED BEDS - 445 COMPUTATIONAL FLUID DYNAMICS (CFD) ---- 446 CONTENTS ----- XV 17.4.1 17.4.2 17.4.3 TYPES OF CFD SIMULATIONS ---- 446 BASIC PRINCIPLES OF CFD ---- 449 APPLICATIONS ---- 452 18 18.1 18.2 18.2.1 18.2.2 18.2.3 18.3 18.3.1 18.3.2 18.4 18.4.1 18.4.2 PROCESS SAFETY ---- 455 SAFETY PROBLEMS IN CHEMICAL PLANTS - 455 DEVELOPMENT, DESIGN AND CONSTRUCTION OF SAFE PLANTS - 456 INTRODUCTION ---- 456 SAFETY ASSESSMENT ---- 457 STRUCTURE OF SAFETY STUDIES ---- 459 IDENTIFICATION OF HAZARDOUS PROPERTIES OF SUBSTANCES - 461 PURE COMPONENTS ---- 461 EXOTHERMIC CHEMICAL REACTIONS ---- 464 INHERENTLY SAFER PLANT DESIGN ---- 466 THE CONCEPT AND ITS BENEFITS ---- 466 THE ROAD TO FRIENDLIER PLANTS ---- 467 A A.1 A.1.1 A.1.2 A.1.3 A.1.4 A.1.5 A.1.6 A.1.7 A. 2 A.2.1 A.2.2 A. 3 A.3.1 A.3.2 A.3.3 A.3.4 A.4 A.4.1 A.4. 2 A.4. 3 A.4.4 A.5 A.5.1 A.5. 2 BASE CHEMICALS ---- 471 AMMONIA - 471 GENERAL DESCRIPTION - 471 DESULFURIZATION ---- 471 PRIMARY AND SECONDARY REFORMING ---- 471 SHIFT CONVERSION ---- 473 CARBON DIOXIDE REMOVAL ---- 474 FINAL PURIFICATION ---- 474 AMMONIA SYNTHESES AND RECOVERY ---- 475 INORGANIC ACIDS ---- 476 NITRIC ACID ---- 476 SULFURIC ACID ---- 478 AMMONIA-BASED PRODUCTS ---- 480 CAPROLACTAM ---- 480 ACRYLONITRILE ---- 483 UREA ---- 484 MELAMINE ---- 486 NAPHTHA CRACKING ---- 488 BASIC PRINCIPLES ---- 488 HOT SECTION ---- 489 COLD SECTION ---- 491 COKE FORMATION ---- 492 OXIDATION PROCESSES ---- 492 TOLUENE OXIDATION - 493 CYCLOHEXANE OXIDATION ---- 495 XVI - CONTENTS A.5. 3 A.6 A.6.1 A.6. 2 A.7 A. 7.1 A.7.2 A.7.3 N-BUTANE OXIDATION ---- 496 FISCHER-TROPSCH ---- 498 SYNTHESIS GAS PRODUCTION ---- 499 FISCHER-TROPSCH SYNTHESIS ---- 501 INDUSTRIAL ELECTROCHEMICAL PROCESSES ---- 505 CHLORINE GAS PRODUCTION ---- 505 HYDROGEN PEROXIDE PRODUCTION ---- 507 ADIPONITRILE PRODUCTION ---- 508 B B.L B.1.1 B.1.2 B.1.3 B.1.4 B.2 B.2.1 B.2. 2 B.3 B.4 B.4.1 B.4. 2 B.4. 3 B.5 B.5.1 B.5. 2 B.5. 3 POLYMER MANUFACTURING---- 511 POLYETHYLENE ---- 511 HIGH-PRESSURE PROCESS ---- 511 SOLUTION POLYMERIZATION ---- 512 SLURRY PROCESS ---- 513 GAS-PHASE PROCESS ---- 515 POLYPROPYLENE ---- 517 GAS-PHASE PROCESS ---- 517 SLURRY PROCESS ---- 520 EPDM ---- 522 POLYAMIDES ---- 525 INTRODUCTION ---- 525 NYLON 6 ---- 525 NYLON 4,6 ---- 526 SATURATED AND UNSATURATED POLYESTERS ---- 528 SATURATED POLYESTERS ---- 528 UNSATURATED POLYESTERS ---- 531 POWDER COATINGS ---- 532 C C.L C.1.1 C.L. 2 C.L. 3 C.2 C.3 C.4 C.5 C.5.1 C.5. 2 C.5. 3 LIFE SCIENCE PRODUCTS---- 533 BENZALDEHYDE-BASED PRODUCTS ---- 533 AMINO ACIDS ---- 533 CINNAMON ALDEHYDE AND CINNAMYL ALCOHOL ---- 535 BENZYL ALCOHOL ---- 537 A-PICOLINE ---- 537 ASPARTAME ---- 540 PENICILLIN ---- 541 SYNTHETIC ANTIBIOTICS ---- 545 INTRODUCTION ---- 545 CEPHALOSPORINS ---- 546 AMOXILLINS ---- 548 C.6 GLYOXYLIC ACID ------ 549 C.7 FOOD ADDITIVES ------ 551 C.7.1 QUININE ----- 552 C.7. 2 ENZYMES ----- 552 REFERENCES AND FURTHER READING - 555 INDEX - 565 CONTENTS - XVII
any_adam_object	1
author	Haan, André B. de 1964- Padding, Johan T. 1975-
author_GND	(DE-588)1036241904 (DE-588)1262474256
author_facet	Haan, André B. de 1964- Padding, Johan T. 1975-
author_role	aut aut
author_sort	Haan, André B. de 1964-
author_variant	a b d h abd abdh j t p jt jtp
building	Verbundindex
bvnumber	BV047863596
classification_rvk	VN 7000
ctrlnum	(OCoLC)1309068840 (DE-599)DNB1222605945
discipline	Chemie / Pharmazie
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illustrated	Illustrated
indexdate	2024-12-20T19:30:30Z
institution	BVB
institution_GND	(DE-588)10095502-2
isbn	3110712431 9783110712438
language	English
oai_aleph_id	oai:aleph.bib-bvb.de:BVB01-033246172
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physical	XVII, 577 Seiten Illustrationen, Diagramme 24 cm x 17 cm
publishDate	2022
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publisher	De Gruyter
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series2	De Gruyter graduate
spellingShingle	Haan, André B. de 1964- Padding, Johan T. 1975- 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 B. de Haan, Johan T. Padding
title_fullStr	Process technology an introduction André B. de Haan, Johan T. Padding
title_full_unstemmed	Process technology an introduction André B. de Haan, Johan T. Padding
title_short	Process technology
title_sort	process technology an introduction
title_sub	an introduction
topic	Verfahrenstechnik (DE-588)4062781-0 gnd
topic_facet	Verfahrenstechnik
url	https://www.degruyter.com/books/9783110712438 http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=033246172&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
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