Verfügbarkeit: Heat conduction

Heat conduction:

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Bibliographische Detailangaben
1. Verfasser:	Jiji, Latif M. 1927- (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Berlin [u.a.] Springer 2009
Ausgabe:	3. ed.
Schlagworte:	Wärmeleitung
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	XV, 418 S. graph. Darst.
ISBN:	9783642012662 9783642012679

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MARC


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Datensatz im Suchindex

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adam_text	WITH SURFACE CONVECTION 41 CONTENTS PREFACE VII CHAPTER 1: BASIC CONCEPTS 1 1.1 EXAMPLES OF CONDUCTION PROBLEMS 1 1.2 FOCAL POINT IN CONDUCTION HEAT TRANSFER 2 1.3 FOURIER S LAW OF CONDUCTION 2 1.4 CONSERVATION OF ENERGY: DIFFERENTIAL FORMULATION OF THE HEAT CONDUCTION IN RECTANGULAR COORDINATES 5 1.5 THE HEAT CONDUCTION EQUATION IN CYLINDRICAL AND SPHERICAL COORDINATES 9 1.6 BOUNDARY CONDITIONS 10 1.6.1 SURFACE CONVECTION: NEWTON S LAW OF COOLING 10 1.6.2 SURFACE RADIATION: STEFAN-BOLTZMANN LAW 11 1.6.3 EXAMPLES OF BOUNDARY CONDITIONS 12 1.7 PROBLEM SOLVING FORMAT 15 1.8 UNITS 16 REFERENCES 17 PROBLEMS 18 CHAPTER 2: ONE-DIMENSIONAL STEADY-STATE CONDUCTION 24 2.1 EXAMPLES OF ONE-DIMENSIONAL CONDUCTION 24 2.2 EXTENDED SURFACES: FINS 34 2.2.1 THE FUNCTION OF FINS 34 2.2.2 TYPES OF FINS 34 2.2.2 HEAT TRANSFER AND TEMPERATURE DISTRIBUTION IN FINS 35 2.2.4 THE FIN APPROXIMATION 36 2.2.5 THE FIN HEAT EQUATION: CONVECTION AT SURFACE 37 2.2.6 DETERMINATION OF DAJDX 39 2.2.7 BOUNDARY CONDITIONS 40 2.2.8 DETERMINATION OF FIN HEAT TRANSFER RATE Q, 40 2.2.9 STEADY STATE APPLICATIONS: CONSTANT AREA FINS BIBLIOGRAFISCHE INFORMATIONEN HTTP://D-NB.INFO/993291287 DIGITALISIERT DURCH X CONTENTS 2.2.10 CORRECTED LENGTH L C 44 2.2.11 FIN EFFICIENCY RJ F 44 2.2.12 MOVING FINS 45 2.2.13 APPLICATION OF MOVING FINS 47 2.2.14 VARIABLE AREA FINS 49 2.3 BESSEL DIFFERENTIAL EQUATIONS AND BESSEL FUNCTIONS 52 2.3.1 GENERAL FORM OF BESSEL EQUATIONS 52 2.3.2 SOLUTIONS: BESSEL FUNCTIONS 52 2.3.3 FORMS OF BESSEL FUNCTIONS 54 2.3.4 SPECIAL CLOSED-FORM BESSEL FUNCTIONS: N = ODD INTEGER/2 54 2.3.5 SPECIAL RELATIONS FOR = 1, 2, 3, ... 55 2.3.6 DERIVATIVES AND INTEGRALS OF BESSEL FUNCTIONS 56 2.3.7 TABULATION AND GRAPHICAL REPRESENTATION OF SELECTED BESSEL FUNCTIONS 56 2.4 EQUIDIMENSIONAL (EULER) EQUATION 58 2.5 GRAPHICALLY PRESENTED SOLUTIONS TO FIN HEAT TRANSFER RATE Q F 59 REFERENCES 60 PROBLEMS 61 CHAPTER 3: TWO-DIMESIONAL STEADY STATE CONDUCTION 72 3.1 THE HEAT CONDUCTION EQUATION 72 3.2 METHOD OF SOLUTION AND LIMITATIONS 72 3.3 HOMOGENEOUS DIFFERENTIAL EQUATIONS AND BOUNDARY CONDITIONS 72 3.4 STURM-LIOUVILLE BOUNDARY-VALUE PROBLEM: ORTHOGONALITY 74 3.5 PROCEDURE FOR THE APPLICATION OF SEPARATION OF VARIABLES METHOD 76 3.6 CARTESIAN COORDINATES: EXAMPLES 83 3. CONTENTS XI PROBLEMS 111 CHAPTER 4: TRANSIENT CONDUCTION 119 4.1 SIMPLIFIED MODEL: LUMPED-CAPACITY METHOD 119 4.1.1 CRITERION FOR NEGLECTING SPATIAL TEMPERATURE VARIATION 119 4.1.2 LUMPED-CAPACITY ANALYSIS 121 4.2 TRANSIENT CONDUCTION IN PLATES 124 4.3 NON-HOMOGENEOUS EQUATIONS AND BOUNDARY CONDITIONS 128 4.4 TRANSIENT CONDUCTION IN CYLINDERS 132 4.5 TRANSIENT CONDUCTION IN SPHERES 138 4.6 TIME DEPENDENT BOUNDARY CONDITIONS: DUHAMEFS SUPERPOSITION INTEGRAL 141 4.6.1 FORMULATION OF DUHAMEL S INTEGRAL 142 4.6.2 EXTENSION TO DISCONTINUOUS BOUNDARY CONDITIONS 144 4.6.3 APPLICATIONS 145 4.7 CONDUCTION IN SEMI-INFINITE REGIONS: THE SIMILARITY TRANSFORMATION METHOD 150 REFERENCES 154 PROBLEMS 154 CHAPTER 5: POROUS MEDIA 163 5.1 EXAMPLES OF CONDUCTION IN POROUS MEDIA 163 5.2 SIMPLIFIED HEAT TRANSFER MODEL 164 5.2.1 POROSITY 164 5.2.2 HEAT CONDUCTION EQUATION: CARTESIAN COORDINATES 165 5.2.3 BOUNDARY CONDITIONS 167 5.2.4 HEAT CONDUCTION EQUATION: CYLINDRICAL COORDINATES 168 5.3 APPLICATIONS 168 REFERENCES 174 PROBLEMS 175 XUE CONTENTS CHAPTER 6: CONDUCTION WITH PHASE CHANGE: MOVING BOUNDARY PROBLEMS 184 6.1 INTRODUCTION 184 6.2 THE HEAT EQUATION 185 6.3 MOVING INTERFACE BOUNDARY CONDITIONS 185 6.4 NON-LINEARITY OF THE INTERFACE ENERGY EQUATION 188 6.5 NON-DIMENSIONAL FORM OF THE GOVERNING EQUATIONS: GOVERNING PARAMETERS 189 6.6 SIMPLIFIED MODEL: QUASI-STEADY APPROXIMATION 190 6.7 EXACT SOLUTIONS 197 6.7.1 STEFAN S SOLUTION 197 6.7.2 NEUMANN S SOLUTION: SOLIDIFICATION OF SEMI- INFINITE REGION 200 6.7.3 NEUMANN S SOLUTION: MELTING OF SEMI-INFINITE REGION 203 6.8 EFFECT OF DENSITY CHANGE ON THE LIQUID PHASE 204 6.9 RADIAL CONDUCTION WITH PHASE CHANGE 205 6.10 PHASE CHANGE IN FINITE REGIONS 209 REFERENCES 210 PROBLEMS 210 CHAPTER 7: NON-LESEAR CONDUCTION PROBLEMS 215 7.1 INTRODUCTION 215 7.2 SOURCES OF NON-LINEARITY 215 7.2.1 NON-LINEAR DIFFERENTIAL EQUATIONS 215 7.2.2 NON-LINEAR BOUNDARY CONDITIONS 216 7.3 TAYLOR SERIES METHOD 216 7.4 KIRCHHOFF TRANSFORMATION 220 7.4.1 TRANSFORMATION OF DIFFERENTIAL EQUATIONS 220 7.4.2 TRANSFORMATION OF BOUNDARY CONDITIONS 221 7.5 BOLTZMANN TRANSFORMATION 224 7.6 COMBINING BOLTZMANN AND KIRCHHOFF TRANSFORMATIONS 226 7.7 EXACT SOLUTIONS 227 REFERENCES 230 PROBLEMS 230 INTEGRAL METHOD APPROXIMATION: MATHEMATICAL SIMPLIFICATION PROCEDURE ACCURACY OF THE INTEGRAL METHOD APPLICATION TO CARTESIAN COORDINATES APPLICATION TO CYLINDRICAL COORDINATES NON-LINEAR PROBLEMS ENERGY GENERATION REFERENCES PROBLEMS 236 236 237 238 246 251 260 264 264 CONTENTS CHAPTER 8: APPROXIMATE SOLUTIONS: THE INTEGRAL METHOD 236 8.2 8.3 8.4 8.5 8.6 8.7 CHAPTER 9: PERTURBATION SOLUTIONS 269 9.1 INTRODUCTION 269 9.2 SOLUTION PROCEDURE 270 9.3 EXAMPLES OF PERTURBATION PROBLEMS IN CONDUCTION 271 9.4 PERTURBATION SOLUTIONS: EXAMPLES 273 9.5 USEFUL EXPANSIONS 296 REFERENCES 296 PROBLEMS 297 CHAPTER 10: HEAT TRANSFER IN LIVING TISSUE 302 10.1 INTRODUCTION 302 10.2 VASCULAR ARCHITECTURE AND BLOOD FLOW 302 10.3 BLOOD TEMPERATURE VARIATION 304 10.4 MATHEMATICAL MODELING OF VESSELS-TISSUE HEAT TRANSFER 305 10.4.1 PENNES BIOHEAT EQUATION 305 10.4.2 CHEN-HOLMES EQUATION 312 10.4.3 THREE-TEMPERATURE MODEL FOR PERIPHERAL TISSUE 313 10.4.4 WEINBAUM-JIJI SIMPLIFIED BIOHEAT EQUATION FOR PERIPHERAL TISSUE 315 10.4.5 THE S- VESSEL TISSUE CYLINDER MODEL 323 REFERENCE XIV CONTENTS CHAPTER 11: M1CROSCALE CONDUCTION 347 11.1 INTRODUCTION 347 11.1.1 CATEGORIES OF MICROSCALE PHENOMENA 348 11.1.2 PURPOSE AND SCOPE OF THIS CHAPTER 350 11.2 UNDERSTANDING THE ESSENTIAL PHYSICS OF THERMAL CONDUCTIVITY USING THE KINETIC THEORY OF GASES 351 11.2.1 DETERMINATION OF FOURIER S LAW AND EXPRESSION FOR THERMAL CONDUCTIVITY 351 11.3 ENERGY CARRIERS 355 11.3.1 IDEAL GAS: HEAT IS CONDUCTED BY GAS MOLECULES 355 11.3.2 METALS: HEAT IS CONDUCTED BY ELECTRONS 359 11.3.3 ELECTRICAL INSULATORS AND SEMICONDUCTORS: HEAT IS CONDUCTED BY PHONONS (SOUND WAVES) 361 11.3.4 RADIATION: HEAT IS CARRIED BY PHOTONS (LIGHT WAVES) 372 11.4 THERMAL CONDUCTIVITY REDUCTION BY BOUNDARY SCATTERING: THE CLASSICAL SIZE EFFECT 376 11.4.1 ACCOUNTING FOR MULTIPLE SCATTERING MECHANISMS: MATTHIESSEN S RULE 377 11.4.2 BOUNDARY SCATTERING FOR HEAT FLOW PARALLEL TO BOUNDARIES 379 11.4.3 BOUNDARY SCATTERING FOR HEAT FLOW PERPENDICULAR TO BOUNDARIES 387 11.5 CLOSING THOUGHTS 391 REFERENCES 394 PROBLEMS 397 APPENDIX A: ORDINARY DIFFERENTIAL EQUATIONS 402 (1) SECOND ORDER DIFFERENTIAL EQUATIONS WITH CONSTANT COEFFICIENTS 402 (2) FIRST ORDER ORDINARY DIFFERENTIAL EQUATIONS WITH VARIABLE COEFFICIENTS 404 APPENDIX B: INTEGRALS OF BESSEL FUNCTIONS 405 APPENDIX C: VALUES OF BESSEL FUNCTIONS 406 APPENDI CONTENTS X D-3 PROPERTIES OF HELIUM GAS 412 D-4 PROPERTIES OF COPPER AT 3 00 K 4 12 D-5 PROPERTIES OF FUSED SILICA 4 2 (AMORPHOUS SILICON DIOXIDE, SIO 2 )AT 300 K 413 D-6 PROPERTIES OF SILICON 413 D-7 MEASURED THERMAL CONDUCTIVITY OF A 56 NM DIAMETER SILICON NANOWIRE AT SELECTED TEMPERATURES 414 D-8 CALCULATED THERMAL CONDUCTIVITY OF SINGLE-WALLED CARBON NANOTUBES, SELECTED VALUES 414 INDEX 416
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author	Jiji, Latif M. 1927-
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discipline	Maschinenbau / Maschinenwesen Physik Energietechnik
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spelling	Jiji, Latif M. 1927- Verfasser (DE-588)131647156 aut Heat conduction Latif M. Jiji 3. ed. Berlin [u.a.] Springer 2009 XV, 418 S. graph. Darst. txt rdacontent n rdamedia nc rdacarrier Wärmeleitung Wärmeleitung (DE-588)4064192-2 gnd rswk-swf Wärmeleitung (DE-588)4064192-2 s DE-604 DNB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=018013712&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Jiji, Latif M. 1927- Heat conduction Wärmeleitung Wärmeleitung (DE-588)4064192-2 gnd
subject_GND	(DE-588)4064192-2
title	Heat conduction
title_auth	Heat conduction
title_exact_search	Heat conduction
title_full	Heat conduction Latif M. Jiji
title_fullStr	Heat conduction Latif M. Jiji
title_full_unstemmed	Heat conduction Latif M. Jiji
title_short	Heat conduction
title_sort	heat conduction
topic	Wärmeleitung Wärmeleitung (DE-588)4064192-2 gnd
topic_facet	Wärmeleitung
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=018013712&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
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