Verfügbarkeit: Scale up in chemical engineering

Scale up in chemical engineering:

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Bibliographische Detailangaben
1. Verfasser:	Zlokarnik, Marko 1931- (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Weinheim WILEY-VCH 2002
Schlagworte:	Chemische Verfahrenstechnik - Dimensionsanalyse Chemische Verfahrenstechnik - Maßstabübertragung Chemical engineering > Simulation methods Chemical processes > Simulation methods Dimensionsanalyse Maßstabübertragung Chemische Verfahrenstechnik
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	XV, 219 S. Ill. : 24 cm
ISBN:	3527302662

Internformat

MARC


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Datensatz im Suchindex

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adam_text	CONTENTS PREFACE XI SYMBOLS XIII 1 INTRODUCTION 1 2 DIMENSIONAL ANALYSIS 3 2.1 THE FUNDAMENTAL PRINCIPLE 3 2.2 WHAT IS A DIMENSION? 3 2.3 WHAT IS A PHYSICAL QUANTITY? 3 2.4 BASE AND DERIVED QUANTITIES, DIMENSIONAL CONSTANTS 4 2.5 DIMENSIONAL SYSTEMS 5 2.6 DIMENSIONAL HOMOGENEITY OF A PHYSICAL CONTENT 7 EXAMPLE IT WHAT DETERMINES THE PERIOD OF OSCILLATION OF A PENDULUM? 7 EXAMPLE 2T DRIPPING OF A LIQUID FROM A CAPILLARY 9 EXAMPLE 3T CORRELATION BETWEEN THE MEAT SIZE AND ROASTING TIME 10 2.7 THE PI THEOREM 12 3 GENERATION OF PI-SETS BY MATRIX TRANSFORMATION 13 EXAMPLE 4: THE PRESSURE DROP OF A HOMOGENEOUS FLUID IN A STRAIGHT, SMOOTH PIPE (IGNORING THE INLET EFFECTS) 13 4 SCALE-INVARIANCE OF THE PI-SPACE-THE FOUNDATION OF THE SCALE-UP 19 EXAMPLE ST HEAT TRANSFER FROM A HEATED WIRE TO AN AIR STREAM 21 5 IMPORTANTTIPSCONCERNINGTHECOMPILATIONOFTHEPROBLEM RELEVANCE LIST 25 5.1 TREATMENT OF UNIVERSAL PHYSICAL CONSTANTS 25 5.2 INTRODUCTION OF INTERMEDIATE QUANTITIES 25 EXAMPLE 6: HOMOGENIZATION OF LIQUID MIXTURES WITH DIFFERENT DENSITIES AND VISCOSITIES 27 EXAMPLE 7: DISSOLVED AIR FLOTATION PROCESS 28 VIIII CONTENTS 6 IMPORTANT ASPECTS CONCERNING THE SCALE-UP 31 6.1 SCALE-UP PROCEDURE AT UNAVAILABILITY OF MODEL MATERIAL SYSTEMS 31 EXAMPLE 8: SCALE-UP OF MECHANICAL FOAM BREAKERS 31 6.2 SCALE-UP UNDER CONDITIONS OF PARTIAL SIMILARITY 34 EXAMPLE 9: DRAG RESISTANCE OF A SHIP ' S HULL 35 EXAMPLE 10: RULES OF THUMB FOR SCALING UP CHEMICAL REACTORS: VOLUME-RELATED MIXING POWER AND THE SUPERFICIAL VELOCITY AS DESIGN CRITERIA FOR MIXING VESSELS AND BUBBLE COLUMNS 39 7 PRELIMINARY SUMMARY OF THE SCALE-UP ESSENTIALS 43 7.1 THE ADVANTAGES OF USING DIMENSIONAL ANALYSIS 43 7.2 SCOPE OF APPLICABILITY OF DIMENSIONAL ANALYSIS 44 7.3 EXPERIMENTAL TECHNIQUES FOR SCALE-UP 45 8 TREATMENT OF VARIABLE PHYSICAL PROPERTIES BY DIMENSIONAL ANALYSIS 47 8.1 DIMENSIONLESS REPRESENTATION OF THE MATERIAL FUNCTION 48 EXAMPLE 11: STANDARD REPRESENTATION OF THE TEMPERATURE DEPENDENCE OF VISCOSITY 49 EXAMPLE 12: STANDARD REPRESENTATION OF THE TEMPERATURE DEPENDENCE OF THE DENSITY 51 8.2 REFERENCE-INVARIANT REPRESENTATION OF A MATERIAL FUNCTION 53 EXAMPLE 13: REFERENCE-INVARIANT REPRESENTATION OF THE MATERIAL FUNCTION M(T X) 54 EXAMPLE 14: REFERENCE-INVARIANT REPRESENTATION OF THE MATERIAL FUNCTION D(T, F) 54 8.3 PI-SPACE AT VARIABLE PHYSICAL PROPERTIES 56 EXAMPLE 15: CONSIDERATION OF THE DEPENDENCE M(T) USING THE M W /M TERM 57 EXAMPLE 16: CONSIDERATION OF THE DEPENDENCE P(T) BY THE GRASHOF NUMBER GR 59 8.4 EXECUTION OF MODEL EXPERIMENTS WITH NEWTONIAN FLUIDS EXHIBITING TEMPERATURE DEPENDENT VISCOSITY 60 8.4.1 PI-SPACE AND REQUIREMENTS CONCERNING THE MODEL MATERIAL SYSTEM 60 8.4.2 MATERIAL DATA CHART 61 EXAMPLE 17: DIMENSIONING OF A WIPED FILM HEAT EXCHANGER [27] 62 8.5 MATERIAL FUNCTION IN NON-NEWTONIAN LIQUIDS 66 8.5.1 PSEUDOPLASTIC FLOW BEHAVIOR 67 8.5.2 VISCOELASTIC FLOW BEHAVIOR 70 8.6 PI-SPACE IN PROCESSES WITH NON-NEWTONIAN FLUIDS 72 8.7 SCALE-UP IN PROCESSES WITH NON-NEWTONIAN FLUIDS 73 EXAMPLE 18: HOMOGENIZATION CHARACTERISTICS IN VISCOELASTIC LIQUIDS 73 CONTENTS IIX 9 REDUCTION OF THE PI-SPACE 77 9.1 THE CONTROVERSY RAYLEIGH - RIABOUCHINSKY 77 EXAMPLE 19. DIMENSIONAL-ANALYTICAL TREATMENT OF THE BOUSSINESQ ' S PROBLEM 79 EXAMPLE 20. HEAT TRANSFER CHARACTERISTIC OF A STIRRING VESSEL 80 10 TYPICAL PROBLEMS AND MISTAKES IN THE USE OF DIMENSIONAL ANALYSIS 83 10.1 MODEL SCALE AND THE STATE OF FLOW; PROBLEMS CONCERNING MINI PLANTS 83 10.1.1 BUBBLE COLUMNS 84 10.1.2 STIRRING VESSELS 84 10.1.3 MICRO-REACTORS AND MINI-PLANTS 85 10.2 UNSATISFACTORY SENSITIVITY OF THE TARGET QUANTITY 85 10.2.1 MIXING TIME 0 86 10.2.2 COMPLETE SUSPENSION OF SOLIDS ACCORDING TO THE 1-S CRITERION 86 10.3 MODEL SCALE AND THE ACCURACY OF MEASUREMENT 87 10.3.1 DETERMINATION OF THE STIRRER POWER 87 10.3.2 MASS TRANSFER IN SURFACE AERATION 87 10.4 CHANGE OF SCALE IN MODEL EXPERIMENTS TO LOCATE THE CORRECT SCALE-UP RULE 89 10.4.1 MASS TRANSFER IN VOLUME AERATION 89 10.5 COMPLETE RECORDING OF THE PI-SET BY EXPERIMENTS 90 10.6 CORRECT PROCEDURE IN THE APPLICATION OF THE DIMENSIONAL ANALYSIS 91 10.6.1 PREPARATION OF THE MODEL EXPERIMENTS 91 10.6.2 EXECUTION OF THE MODEL EXPERIMENTS 92 10.6.3 EVALUATION OF TEST EXPERIMENTS 92 11 OPTIMIZATION OF PROCESS CONDITIONS BY COMBINING PROCESS CHARACTERISTICS 93 EXAMPLE 21: DETERMINATION OF STIRRING CONDITIONS IN ORDER TO CARRY OUT A HOMOGENIZATION PROCESS WITH MINIMUM MIXING WORK 93 EXAMPLE 22: PROCESS CHARACTERISTICS OF A SELF-ASPIRATING HOLLOW STIRRER AND THE DETERMINATION OF ITS OPTIMUM PROCESS CONDITIONS 97 EXAMPLE 23: OPTIMIZATION OF STIRRERS FOR A MAXIMUM REMOVAL OF REACTION HEAT 101 12 SELECTED EXAMPLES OF THE DIMENSIONAL-ANALYTICAL TREATMENT OF PROCESSES IN THE FIELD OF MECHANICAL UNIT OPERATIONS 105 EXAMPLE 24: POWER CONSUMPTION IN A GASSED LIQUID. DESIGN DATA FOR STIRRERS AND MODEL EXPERIMENTS FOR SCALING UP 105 EXAMPLE 25: SCALE-UP OF MIXERS FOR MIXING OF SOLIDS 110 EXAMPLE 26: CONVEYING CHARACTERISTICS OF SINGLE-SCREW MACHINES 115 EXAMPLE 27: DIMENSIONAL-ANALYTICAL TREATMENT OF LIQUID ATOMIZATION 119 EXAMPLE 28: THE HANGING FILM PHENOMENON 122 EXAMPLE 29. THE PRODUCTION OF LIQUID/LIQUID EMULSIONS 125 X \| CONTENTS EXAMPLE 30. FINE GRINDING OF SOLIDS IN STIRRED MEDIA MILLS 129 EXAMPLE 31: SCALE-UP OF FLOTATION CELLS FOR WASTE WATER PURIFICATION 133 EXAMPLE 32: DESCRIPTION OF THE TEMPORAL COURSE OF SPIN DRYING IN CENTRIFU GAL FILTERS 140 EXAMPLE 33: DESCRIPTION OF PARTICLE SEPARATION BY MEANS OF INERTIAL FORCES 143 EXAMPLE 34: GAS HOLD-UP IN BUBBLE COLUMNS 145 13 SELECTED EXAMPLES OF THE DIMENSIONAL-ANALYTICAL TREATMENT OF PROCESSES IN THE FIELD OF THERMAL UNIT OPERATIONS 149 EXAMPLE 35: STEADY-STATE HEAT TRANSFER IN BUBBLE COLUMNS 149 EXAMPLE 36: TIME COURSE OF TEMPERATURE EQUALIZATION IN A LIQUID WITH TEM PERATURE-DEPENDENT VISCOSITY IN THE CASE OF FREE CONVECTION 153 EXAMPLE 37: MASS TRANSFER IN STIRRING VESSELS IN THE G/L SYSTEM (BULK AERATION) EFFECTS OF COALESCENCE BEHAVIOR OF THE MATERIAL SYSTEM 156 EXAMPLE 38: MASS TRANSFER IN THE G/L SYSTEM IN BUBBLE COLUMNS WITH INJEC TORS AS GAS DISTRIBUTORS. THE EFFECTS OF COALESCENCE BEHAVIOR OF THE MATERIAL SYSTEM 160 EXAMPLE 39: SCALING UP OF DRYERS 166 EXAMPLE 40. SCALE-UP OF A CONTINUOUS, CARRIER-FREE ELECTROPHORESIS 169 14 SELECTED EXAMPLES OF THE DIMENSIONAL-ANALYTICAL TREATMENT OF PROCESSES IN THE FIELD OF CHEMICAL UNIT OPERATIONS 177 EXAMPLE 41: CONTINUOUS CHEMICAL REACTION PROCESS IN A TUBULAR REACTOR 177 EXAMPLE 42: DESCRIPTION OF THE MASS AND HEAT TRANSFER IN SOLID-CATALYZED GAS REACTIONS BY DIMENSIONAL ANALYSIS 184 EXAMPLE 43: SCALE-UP OF REACTORS FOR CATALYTIC PROCESSES IN THE PETROCHEMICAL INDUSTRY 190 EXAMPLE 44: DIMENSIONING OF A TUBULAR REACTOR, EQUIPPED WITH A MIXING NOZZLE, DESIGNED FOR CARRYING OUT COMPETITIVE-CONSECUTIVE REACTIONS 193 EXAMPLE 45: MASS TRANSFER LIMITATION OF THE REACTION RATE OF FAST CHEMICAL REACTIONS IN THE HETEROGENEOUS MATERIAL SYSTEM GAS/LIQUID 197 15 SELECTED EXAMPLES OF THE DIMENSIONAL-ANALYTICAL TREATMENT OF PROCESSES IN THE REALMS OF THE LIVING WORLD 201 EXAMPLE 46: THE CONSIDERATION OF ROWING FROM THE VIEWPOINT OF DIMENSIONAL ANALYSIS 201 EXAMPLE 47: WHY MOST ANIMALS SWIM BENEATH THE WATER SURFACE 204 EXAMPLE 48: TRANSITION FROM WALKING TO RUNNING - A FUNCTION OF THE FROUDE NUMBER 204 EXAMPLE 49: WALKING AND SPRINGING ON WATER 205 EXAMPLE 50. WHAT MAKES SAP DRIFT UP A TREE? 206 LIST OF IMPORTANT, NAMED PI-NUMBERS 207 LITERATURE 211 INDEX 217
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author	Zlokarnik, Marko 1931-
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dewey-full	660.28
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dewey-tens	660 - Chemical engineering
discipline	Chemie / Pharmazie
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spelling	Zlokarnik, Marko 1931- Verfasser (DE-588)106004298 aut Scale up in chemical engineering Marko Zlokarnik Scale-up in chemical engineering Weinheim WILEY-VCH 2002 XV, 219 S. Ill. : 24 cm txt rdacontent n rdamedia nc rdacarrier Chemische Verfahrenstechnik - Dimensionsanalyse Chemische Verfahrenstechnik - Maßstabübertragung Chemical engineering Simulation methods Chemical processes Simulation methods Dimensionsanalyse (DE-588)4133116-3 gnd rswk-swf Maßstabübertragung (DE-588)4279219-8 gnd rswk-swf Chemische Verfahrenstechnik (DE-588)4069941-9 gnd rswk-swf Chemische Verfahrenstechnik (DE-588)4069941-9 s Maßstabübertragung (DE-588)4279219-8 s DE-604 Dimensionsanalyse (DE-588)4133116-3 s DNB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=009751407&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Zlokarnik, Marko 1931- Scale up in chemical engineering Chemische Verfahrenstechnik - Dimensionsanalyse Chemische Verfahrenstechnik - Maßstabübertragung Chemical engineering Simulation methods Chemical processes Simulation methods Dimensionsanalyse (DE-588)4133116-3 gnd Maßstabübertragung (DE-588)4279219-8 gnd Chemische Verfahrenstechnik (DE-588)4069941-9 gnd
subject_GND	(DE-588)4133116-3 (DE-588)4279219-8 (DE-588)4069941-9
title	Scale up in chemical engineering
title_alt	Scale-up in chemical engineering
title_auth	Scale up in chemical engineering
title_exact_search	Scale up in chemical engineering
title_full	Scale up in chemical engineering Marko Zlokarnik
title_fullStr	Scale up in chemical engineering Marko Zlokarnik
title_full_unstemmed	Scale up in chemical engineering Marko Zlokarnik
title_short	Scale up in chemical engineering
title_sort	scale up in chemical engineering
topic	Chemische Verfahrenstechnik - Dimensionsanalyse Chemische Verfahrenstechnik - Maßstabübertragung Chemical engineering Simulation methods Chemical processes Simulation methods Dimensionsanalyse (DE-588)4133116-3 gnd Maßstabübertragung (DE-588)4279219-8 gnd Chemische Verfahrenstechnik (DE-588)4069941-9 gnd
topic_facet	Chemische Verfahrenstechnik - Dimensionsanalyse Chemische Verfahrenstechnik - Maßstabübertragung Chemical engineering Simulation methods Chemical processes Simulation methods Dimensionsanalyse Maßstabübertragung Chemische Verfahrenstechnik
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