Verfügbarkeit: Theory of heat transfer with forced convection film flows

Theory of heat transfer with forced convection film flows:

Gespeichert in:

Bibliographische Detailangaben
1. Verfasser:	Shang, Deyi (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Berlin [u.a.] Springer 2011
Schriftenreihe:	Heat and mass transfer
Schlagworte:	Laminare Strömung Erzwungene Konvektion Filmkondensation Mathematisches Modell Filmströmung
Online-Zugang:	Inhaltstext Inhaltsverzeichnis
Beschreibung:	XXII, 344 S. graph. Darst.
ISBN:	9783642125805

Internformat

MARC


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Datensatz im Suchindex

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adam_text	IMAGE 1 CONTENTS 1 INTRODUCTION 1 1.1 SCOPE 2 1.2 APPLICATION BACKGROUND 3 1.3 PREVIOUS DEVELOPMENTS OF THE RESEARCH 3 1.3.1 LAMINAR FORCED CONVECTION BOUNDARY LAYER 3 1.3.2 LAMINAR FORCED FILM CONDENSATION OF PURE VAPOUR 4 1.3.3 LAMINAR FORCED FILM CONDENSATION OF VAPOUR-GAS MIXTURE 5 1.4 CHALLENGES ASSOCIATED WITH INVESTIGATIONS OF LAMINAR FORCED CONVECTION AND FILM CONDENSATION 5 1.4.1 INVESTIGATION OF THE LAMINAR FORCED CONVECTION BOUNDARY LAYER 5 1.4.2 INVESTIGATION OF LAMINAR FORCED FILM CONDENSATION OF PURE VAPOUR 6 1.4.3 INVESTIGATION OF LAMINAR FORCED FILM CONDENSATION OF VAPOUR-GAS MIXTURE 6 1.5 LIMITATIONS OF FALKNER-SKAN TYPE TRANSFORMATION 7 1.6 RECENT DEVELOPMENTS OF RESEARCH IN THIS BOOK 8 1.6.1 NEW SIMILARITY ANALYSIS METHOD 8 1.6.2 TREATMENT OF VARIABLE PHYSICAL PROPERTIES 9 1.6.3 COUPLED EFFECT OF VARIABLE PHYSICAL PROPERTIES ON HEAT AND MASS TRANSFER 9 1.6.4 EXTENSIVE STUDY OF EFFECT OF VISCOUS THERMAL DISSIPATION ON LAMINAR FORCED CONVECTION 10 1.6.5 LAMINAR FORCED FILM CONDENSATION OF VAPOUR 11 1.6.6 LAMINAR FORCED FILM CONDENSATION OF VAPOUR-GAS MIXTURER 12 REFERENCES 14 PART I THEORETICAL FOUNDATION 2 BASIC CONSERVATION EQUATIONS FOR LAMINAR CONVECTION 21 2.1 CONTINUITY EQUATION 21 BIBLIOGRAFISCHE INFORMATIONEN HTTP://D-NB.INFO/1000911608 DIGITALISIERT DURCH IMAGE 2 VI CONTENTS 2.2 MOMENTUM EQUATION (NAVIER-STOKES EQUATIONS) 23 2.3 ENERGY EQUATION 26 2.4 GOVERNING PARTIAL DIFFERENTIAL EQUATIONS OF LAMINAR FORCED CONVECTION BOUNDARY LAYERS WITH CONSIDERATION OF VARIABLE PHYSICAL PROPERTIES 30 2.4.1 PRINCIPIE OF THE QUANTITATIVE GRADE ANALYSIS 30 2.4.2 CONTINUITY EQUATION 31 2.4.3 MOMENTUM EQUATIONS (NAVIER-STOKES EQUATIONS) 31 2.4.4 ENERGY EQUATIONS 33 2.5 SUMMARY 36 3 REVIEW OF FALKNER-SKAN TYPE TRANSFORMATION FOR LAMINAR FORCED CONVECTION BOUNDARY LAYER 39 3.1 INTRODUCTION 39 3.2 BASIC CONSERVATION EQUATIONS 39 3.3 DERIVATION REVIEW OF SIMILARITY VARIABLES OF FALKNER-SKAN TRANSFORMATION ON LAMINAR FORCED CONVECTION 40 3.4 EXAMPLE OF SIMILARITY TRANSFORMATION WITH FALKNER-SKAN TRANSFORMATION 44 3.5 SUMMARY 46 3.6 LIMITATIONS OF THE FALKNER-SKAN TYPE TRANSFORMATION 46 EXERCISES 48 REFERENCES 49 4 A NEW SIMILARITY ANALYSIS METHOD FOR LAMINAR FORCED CONVECTION BOUNDARY LAYER 51 4.1 INTRODUCTION 51 4.2 TYPICAL BASIS CONSERVATION EQUATIONS OF LAMINAR FORCED CONVECTION 52 4.3 BRIEF REVIEW ON DETERMINATION OF DIMENSIONLESS SIMILARITY PARAMETERS (NUMBER) 53 4.3.1 SELECT WHOLE PHYSICAL INDEPENDENT VARIABLES DOMINATING THE PHYSICAL PHENOMENON 53 4.3.2 SELECT BASIC DIMENSION SYSTEM 54 4.3.3 DETERMINE THE DIMENSIONLESS SIMILARITY PARAMETERS RC\, TZI, AND TTT, 54 4.4 INVESTIGATION OF THE DIMENSIONLESS SIMILARITY VARIABLES ON THE VELOCITY FIELD 56 4.4.1 DERIVATION OF DIMENSIONLESS COORDINATE VARIABLE 57 4.4.2 DERIVATION FOR DIMENSIONLESS VELOCITY COMPONENTS 58 4.5 APPLICATION EXAMPLE OF THE NEW SIMILARITY ANALYSIS METHOD. 63 4.5.1 SIMILARITY TRANSFORMATION OF (3.1) 63 4.5.2 SIMILARITY TRANSFORMATION OF (3.2) 64 4.5.3 SIMILARITY TRANSFORMATION OF (3.3) 65 IMAGE 3 CONTENTS 4.6 COMPARISON OF THE TWO SIMILARITY METHODS 67 4.6.1 DIFFERENT DERIVATION PROCESS OF THE DIMENSIONLESS SIMILARITY VARIABLES ON MOMENTUM FIELD 68 4.6.2 DIFFERENT DIMENSIONLESS EXPRESSIONS ON MOMENTUM FIELD 68 4.6.3 DIFFERENT SIMILARITY ANALYSIS GOVERNING MATHEMATICAL MODELS 68 4.7 REMARKS 69 EXERCISES 70 REFERENCES 70 PART II LAMINAR FORCED CONVECTION 5 HEAT TRANSFER ON LAMINAR FORCED CONVECTION WITH IGNORING VARIABLE PHYSICAL PROPERTIES AND VISCOUS THERMAL DISSIPATION 75 5.1 INTRODUCTION 75 5.2 BASIC CONSERVATION EQUATIONS OF LAMINAR FORCED CONVECTION. 76 5.2.1 GOVERNING PARTIAL DIFFERENTIAL EQUATIONS 76 5.2.2 SIMILARITY TRANSFORMATION VARIABLES 77 5.2.3 GOVERNING ORDINARY DIFFERENTIAL EQUATIONS 77 5.3 NUMERICAL RESULTS 78 5.3.1 VELOCITY FIELDS 78 5.3.2 TEMPERATURE FIELDS 79 5.4 SKIN-FRICTION COEFFICIENT 79 5.5 HEAT TRANSFER 82 5.5.1 HEAT TRANSFER ANALYSIS 82 5.5.2 DIMENSIONLESS WALL TEMPERATURE GRADIENT 84 5.6 SUMMARY 86 5.7 REMARKS 89 5.8 CALCULATION EXAMPLE 89 EXERCISE 92 REFERENCES 92 6 HEAT TRANSFER OF LAMINAR FORCED CONVECTION WITH CONSIDERATION OF VISCOUS THERMAL DISSIPATION 93 6.1 INTRODUCTION 93 6.2 GOVERNING PARTIAL DIFFERENTIAL EQUATIONS OF LAMINAR FORCED CONVECTION 94 6.2.1 GOVERNING PARTIAL DIFFERENTIAL EQUATIONS 94 6.2.2 SIMILARITY VARIABLES 95 6.2.3 GOVERNING ORDINARY DIFFERENTIAL EQUATIONS 95 6.3 NUMERICAL RESULTS 98 6.3.1 VELOCITY FIELD 98 6.3.2 TEMPERATURE FIELDS 98 IMAGE 4 CONTENTS 6.4 HEAT TRANSFER ANALYSIS 101 6.5 FORMULATED EQUATION OF DIMENSIONLESS WALL TEMPERATURE GRADIENT 103 6.6 HEAT TRANSFER PREDICTION EQUATION 105 6.7 HEAT TRANSFER PREDICTION DEVIATION CAUSED BY IGNORING THE VISCOUS THERMAL DISSIPATION 106 6.8 ADIABATIC ECKERT NUMBERS 108 6.9 SUMMARY 110 6.10 REMARKS 112 6.11 CALCULATION EXAMPLES 112 EXERCISE 117 REFERENCES 117 7 HEAT TRANSFER OF GAS LAMINAR FORCED CONVECTION WITH CONSIDERATION OF VARIABLE PHYSICAL PROPERTIES 119 7.1 INTRODUCTION 119 7.2 GOVERNING EQUATIONS 120 7.2.1 GOVERNING PARTIAL DIFFERENTIAL EQUATIONS 120 7.2.2 SIMILARITY TRANSFORMATION VARIABLES 121 7.2.3 SIMILARITY TRANSFORMATION OF THE GOVERNING PARTIAL DIFFERENTIAL EQUATIONS 122 7.3 TREATMENT OF GAS VARIABLE PHYSICAL PROPERTIES 128 7.4 VELOCITY AND TEMPERATURE FIELDS 131 7.5 SKIN-FRICTION COEFFICIENT WITH CONSIDERATION OF VARIABLE PHYSICAL PROPERTIES 133 7.6 HEAT TRANSFER 135 7.6.1 HEAT TRANSFER ANALYSIS 136 7.6.2 DIMENSIONLESS WALL TEMPERATURE GRADIENT 137 7.6.3 PREDICTION EQUATIONS ON HEAT TRANSFER 140 7.7 REMARKS 141 7.8 CALCULATION EXAMPLES 142 EXERCISES 146 REFERENCES 146 8 HEAT TRANSFER OF LIQUID LAMINAR FORCED CONVECTION WITH CONSIDERATION OF VARIABLE PHYSICAL PROPERTIES 149 8.1 INTRODUCTION 149 8.2 GOVERNING EQUATIONS 150 8.2.1 GOVERNING PARTIAL DIFFERENTIAL EQUATIONS 150 8.2.2 SIMILARITY TRANSFORMATION VARIABLES 151 8.2.3 GOVERNING ORDINARY DIFFERENTIAL EQUATIONS 151 8.3 TREATMENT OF LIQUID VARIABLE PHYSICAL PROPERTIES 152 8.4 VELOCITY AND TEMPERATURE FIELDS 154 IMAGE 5 CONTENTS 8.5 SKIN-FRICTION COEFFICIENT WITH CONSIDERATION OF VARIABLE PHYSICAL PROPERTIES 156 8.6 HEAT TRANSFER ANALYSIS 157 8.7 DIMENSIONLESS WALL TEMPERATURE GRADIENT 159 8.8 PREDICTION EQUATIONS ON HEAT TRANSFER 164 8.9 SUMMARY 164 8.10 REMARKS 167 8.11 CALCULATION EXAMPLES 168 EXERCISES 171 REFERENCES 172 PART III LAMINAR FORCED FILM CONDENSATION 9 COMPLETE SIMILARITY MATHEMATICAL MODELS ON LAMINAR FORCED FILM CONDENSATION OF PURE VAPOUR 175 9.1 INTRODUCTION 175 9.2 GOVERNING PARTIAL DIFFERENTIAL EQUATIONS 177 9.2.1 PHYSICAL MODEL AND COORDINATE SYSTEM 177 9.2.2 GOVERNING PARTIAL DIFFERENTIAL EQUATIONS 177 9.3 SIMILARITY VARIABLES 179 9.3.1 FOR LIQUID FILM 179 9.3.2 FOR VAPOUR FILM 180 9.4 SIMILARITY TRANSFORMATION OF GOVERNING PARTIAL DIFFERENTIAL EQUATIONS 180 9.4.1 FOR LIQUID FILM 180 9.4.2 FOR VAPOUR FILM 186 9.4.3 FOR BOUNDARY CONDITIONS 190 9.5 REMARKS 193 EXERCISES 194 REFERENCES 194 10 VELOCITY AND TEMPERATURE FIELDS ON LAMINAR FORCED FILM CONDENSATION OF PURE VAPOUR 197 10.1 INTRODUCTION 197 10.2 TREATMENT OF TEMPERATURE-DEPENDENT PHYSICAL PROPERTIES 198 10.2.1 FOR LIQUID FILM MEDIUM 198 10.2.2 FOR VAPOUR FILM MEDIUM 200 10.3 NUMERICAL SOLUTIONS 201 10.3.1 CALCULATION PROCEDURE 201 10.3.2 VELOCITY AND TEMPERATURE FIELDS OF THE TWO-PHASE FILM FLOWS 202 10.4 REMARKS 205 EXERCISES 206 REFERENCES 206 IMAGE 6 XUE CONTENTS 11 HEAT AND MASS TRANSFER ON LAMINAR FORCED FILM CONDENSATION OF PURE VAPOUR 209 11.1 INTRODUCTION 210 11.2 CONDENSATE HEAT TRANSFER ANALYSIS 210 11.3 WALL DIMENSIONLESS TEMPERATURE GRADIENT 212 11.4 PREDICTION EQUATIONS ON HEAT TRANSFER 213 11.5 MASS TRANSFER ANALYSIS 215 11.6 MASS FLOW RATE PARAMETER 217 11.7 PREDICTION EQUATIONS ON CONDENSATE MASS TRANSFER 224 11.8 CONDENSATE MASS-ENERGY TRANSFORMATION EQUATION 225 11.8.1 DERIVATION ON CONDENSATE MASS-ENERGY TRANSFORMATION EQUATION 225 11.8.2 MASS-ENERGY TRANSFORMATION COEFFICIENT 227 11.9 SUMMARY 230 11.10 REMARKS 230 11.11 CALCULATION EXAMPLE 237 EXERCISES 239 12 COMPLETE SIMILARITY MATHEMATICAL MODELS ON LAMINAR FORCED FILM CONDENSATION OF VAPOUR-GAS MIXTURE 241 12.1 INTRODUCTION 241 12.2 GOVERNING PARTIAL DIFFERENTIAL EQUATIONS 242 12.2.1 PHYSICAL MODEL AND COORDINATE SYSTEM 242 12.2.2 GOVERNING PARTIAL DIFFERENTIAL EQUATIONS 243 12.3 SIMILARITY VARIABLES 245 12.3.1 FOR LIQUID FILM 245 12.3.2 FOR VAPOR-GAS MIXTURE FILM 246 12.4 SIMILARITY TRANSFORMATION OF GOVERNING PARTIAL DIFFERENTIAL EQUATIONS 247 12.4.1 FOR LIQUID FILM 247 12.4.2 FOR VAPOUR-GAS MIXTURE FILM 253 12.4.3 FOR BOUNDARY CONDITIONS 263 12.5 REMARKS 270 EXERCISES 270 REFERENCES 271 13 VELOCITY, TEMPERATURE, AND CONCENTRATION FIELDS ON LAMINAR FORCED FILM CONDENSATION OF VAPOUR-GAS MIXTURE 273 13.1 INTRODUCTION 274 13.2 TREATMENT OF VARIABLE PHYSICAL PROPERTIES 274 13.2.1 TREATMENT OF TEMPERATURE-DEPENDENT PHYSICAL PROPERTIES OF LIQUID FILM 275 13.2.2 TREATMENT OF CONCENTRATION-DEPENDENT DENSITIES OF VAPOUR-GAS MIXTURE 275 IMAGE 7 CONTENTS XIII 13.2.3 TREATMENT OF OTHER CONCENTRATION-DEPENDENT PHYSICAL PROPERTIES OF VAPOUR-GAS MIXTURE 277 13.2.4 TREATMENT OF TEMPERATURE-DEPENDENT PHYSICAL PROPERTIES OF VAPOUR-GAS MIXTURE 278 13.3 NUMERICAL CALCULATION PROCEDURE 280 13.4 NUMERICAL SOLUTIONS 281 13.4.1 INTERFACIAL VAPOUR SATURATION TEMPERATURE 281 13.4.2 EFFECT OF THE INTERFACIAL VAPOUR SATURATION TEMPERATURE ON WALL SUBCOOLED TEMPERATURE 281 13.4.3 VELOCITY, CONCENTRATION, AND TEMPERATURE FIELDS OF THE TWO-PHASE FILM FLOWS 282 13.5 REMARKS 287 EXERCISES 289 REFERENCES 289 14 HEAT AND MASS TRANSFER ON LAMINAR FORCED FILM CONDENSATION OF VAPOUR-GAS MIXTURE 291 14.1 INTRODUCTION 292 14.2 HEAT TRANSFER ANALYSIS 292 14.3 WALL DIMENSIONLESS TEMPERATURE GRADIENT 294 14.4 DETERMINATION OF INTERFACIAL VAPOUR SATURATION TEMPERATURE 297 14.5 SIMPLE AND RELIABLE PREDICTION EQUATIONS OF HEAT TRANSFER 300 14.6 CONDENSATE MASS TRANSFER ANALYSIS 302 14.7 MASS FLOW RATE PARAMETER 304 14.8 PREDICTION EQUATIONS OF CONDENSATE MASS TRANSFER 310 14.9 EQUATION OF INTERFACIAL VAPOUR SATURATION TEMPERATURE 310 14.9.1 FOR LAMINAR FORCED FILM CONDENSATION OF VAPOUR-GAS MIXTURE 310 14.9.2 FOR LAMINAR FORCED FILM CONDENSATION OF WATER VAPOUR-AIR MIXTURE 311 14.10 EVALUATION OF CONDENSATE MASS-ENERGY TRANSFORMATION COEFFICIENT 312 14.11 SUMMARY 313 14.12 REMARKS 321 14.13 CALCULATION EXAMPLES 322 EXERCISES 327 PART IV APPENDIX APPENDIX A TABLES WITH PHYSICAL PROPERTIES 331 PHYSICAL PROPERTIES OF GASES AT ATMOSPHERIC PRESSURE 331 PHYSICAL PROPERTIES OF SOME SATURATED LIQUID 336 TEMPERATURE PARAMETERS OF GASES [5-7] 339 REFERENCES 340 INDEX 341
any_adam_object	1
author	Shang, Deyi
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dewey-tens	620 - Engineering and allied operations 530 - Physics
discipline	Maschinenbau / Maschinenwesen Physik Energietechnik
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publisher	Springer
record_format	marc
series2	Heat and mass transfer
spelling	Shang, Deyi Verfasser aut Theory of heat transfer with forced convection film flows Deyi Shang Berlin [u.a.] Springer 2011 XXII, 344 S. graph. Darst. txt rdacontent n rdamedia nc rdacarrier Heat and mass transfer Laminare Strömung (DE-588)4034181-1 gnd rswk-swf Erzwungene Konvektion (DE-588)4330969-0 gnd rswk-swf Filmkondensation (DE-588)4139722-8 gnd rswk-swf Mathematisches Modell (DE-588)4114528-8 gnd rswk-swf Filmströmung (DE-588)4140412-9 gnd rswk-swf Filmströmung (DE-588)4140412-9 s Laminare Strömung (DE-588)4034181-1 s Erzwungene Konvektion (DE-588)4330969-0 s Filmkondensation (DE-588)4139722-8 s Mathematisches Modell (DE-588)4114528-8 s DE-604 Erscheint auch als Online-Ausgabe 978-3-642-12581-2 X:MVB text/html http://deposit.dnb.de/cgi-bin/dokserv?id=3442319&prov=M&dok_var=1&dok_ext=htm Inhaltstext DNB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=022486038&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Shang, Deyi Theory of heat transfer with forced convection film flows Laminare Strömung (DE-588)4034181-1 gnd Erzwungene Konvektion (DE-588)4330969-0 gnd Filmkondensation (DE-588)4139722-8 gnd Mathematisches Modell (DE-588)4114528-8 gnd Filmströmung (DE-588)4140412-9 gnd
subject_GND	(DE-588)4034181-1 (DE-588)4330969-0 (DE-588)4139722-8 (DE-588)4114528-8 (DE-588)4140412-9
title	Theory of heat transfer with forced convection film flows
title_auth	Theory of heat transfer with forced convection film flows
title_exact_search	Theory of heat transfer with forced convection film flows
title_full	Theory of heat transfer with forced convection film flows Deyi Shang
title_fullStr	Theory of heat transfer with forced convection film flows Deyi Shang
title_full_unstemmed	Theory of heat transfer with forced convection film flows Deyi Shang
title_short	Theory of heat transfer with forced convection film flows
title_sort	theory of heat transfer with forced convection film flows
topic	Laminare Strömung (DE-588)4034181-1 gnd Erzwungene Konvektion (DE-588)4330969-0 gnd Filmkondensation (DE-588)4139722-8 gnd Mathematisches Modell (DE-588)4114528-8 gnd Filmströmung (DE-588)4140412-9 gnd
topic_facet	Laminare Strömung Erzwungene Konvektion Filmkondensation Mathematisches Modell Filmströmung
url	http://deposit.dnb.de/cgi-bin/dokserv?id=3442319&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=022486038&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT shangdeyi theoryofheattransferwithforcedconvectionfilmflows

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