Verfügbarkeit: Conjugate problems in convective heat transfer

Conjugate problems in convective heat transfer:

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Bibliographische Detailangaben
1. Verfasser:	Dorfman, Abram S. 1923- (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Boca Raton [u.a.] CRC Press 2010
Schriftenreihe:	Heat transfer 2
Schlagworte:	Heat > Transmission Heat > Convection Fluid dynamics Strömungsmechanik Konvektion
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	Includes bibliographical references and index
Beschreibung:	XXXII, 421 S. graph. Darst.
ISBN:	9781420082371

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Datensatz im Suchindex

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adam_text	Contents List of Examples ....................................................................................................xi Preface ................................................................................................................. xvii Acknowledgments .............................................................................................xxi The Author ........................................................................................................xxiii Introduction ................................................................................,......................xxv Nomenclature ..................................................................................................xxvii Part I: Approximate Solutions Chapter 1 Analytical Methods for the Estimation of Heat Transfer from Nonisothermal Walls ...........„...............................................................................3 1.1 Basic Equations ...............................................................................................3 1.2 Self-Similar Solutions of the Boundary Layer Equations ........................4 13 Solutions of the Boundary Layer Equations in the Power Series ...........5 14 Integral Methods ............................................................................................7 1-5 Method of Superposition ............................................................................12 16 Solutions of the Boundary Layer Equations in the Series of Shape Parameters ....................................................................................16 References ...............................................................................................................18 Chapter 2 Approximate Solutions of Conjugate Problems in Convective Heat Transfer ........................................................................................................21 2.1 Formulation of a Conjugate Problem of Convective Heat Transfer ................................................................................................21 2.2 The Case of Linear Velocity Distribution across the Thermal Boundary Layer. ...........................................................................................22 2.3 The Case of Uniform Velocity Distribution across the Thermal Boundary Layer (Slug Flow) .......................................................................28 2.4 Solutions of the Conjugate Convective Heat Transfer Problems in the Power Series .......................................................................................35 2.5 Solutions of the Conjugate Heat Transfer Problems by Integral Methods .........................................................................................................46 References ...............................................................................................................50 vu viii Contents Part II: Theory and Methods Chapter 3 Heat Transfer from Arbitrary Nonisothermal Surfaces in a Laminar Flow ...............................................................................55 3.1 The Exact Solution of the Thermal Boundary Layer Equation for an Arbitrary Surface Temperature Distribution ...............................55 3.2 Generalization for an Arbitrary Velocity Gradient in a Free Stream Flow ................................................................,.................62 3.3 General Form of the Influence Function of the Unheated Zone: Convergence of the Series ..............................................64 3.4 The Exact Solution of the Thermal Boundary Layer Equation for an Arbitrary Surface Heat Flux-Distribution ....................69 3.5 Temperature Distribution on an Adiabatic Surface in an Impingent Flow ............................................................................................73 3.6 The Exact Solution of an Unsteady Thermal Boundary Layer Equation for Arbitrary Surface Temperature Distribution .................... 75 3.7 The Exact Solution of a Thermal Boundary Layer Equation for a Surface with Arbitrary Temperature in a Compressible Flow ...........78 3.8 The Exact Solution of a Thermal Boundary Layer Equation for a Moving Continuous Surface with Arbitrary Temperature Distribution ...........................................................................79 3.9 The Other Solution of a Thermal Boundary Layer Equation for an Arbitrary Surface Temperature Distribution ...............................83 3.9.1 Non-Newtonian Fluid with a Power Law Rheology ..................83 3.9.2 The Effect of Mechanical Energy Dissipation .............................86 3.9.3 Axisymmetric Streamlined and Rotating Bodies .......................87 3.9.4 Thin Cylindrical Bodies ..................................................................89 References ...............................................................................................................91 Chapter 4 Heat Transfer from Arbitrary Nonisothermal Surfaces in Turbulent Flow ................................................................................................95 4.1 Basis Relations for the Equilibrium Boundary Layer .............................95 4.2 Solution of the Thermal Turbulent Boundary Layer Equation for an Arbitrary Surface Temperature Distribution ...............................99 4.3 Intensity of Heat Transfer from an Isothermal Surface: Comparison with Experimental Data .....................................................104 4.3.1 Reynolds Analogy .........................................................................104 4.3.2 Relations for Heat Transfer from an Isothermal Surface in Gradientless Flow ........................................................105 4.3.3 Relations for Heat Transfer from an Isothermal Surface in Gradient Flows .............................................................109 4.4 The Effect of the Turbulent Prandtl Number on Heat Transfer on Flat Plates ............................................................................................... Ill Contents ¡x 4.5 Coefficients 8k of Heat Flux Series for Nonisothermal Surfaces .........112 4.6 Approximate Relations for Heat Flux in a Transition Regime ............116 References .............................................................................................................118 Chapter 5 General Properties of Nonisothermal and Conjugate Heat Transfer ........121 5.1 The Effect of Temperature Head Distribution on Heat Transfer Intensity .......................................................................................................121 5.1.1 The Effect of the Temperature Head Gradient ..........................122 5.1.2 The Effect of Flow Regime ............................................................132 5.1.3 The Effect of Pressure Gradient ...................................................137 5.2 Gradient Analogy and Reynolds Analogy ............................................137 5.3 Heat Flux Inversion ...................................................................................141 5.4 Zero Heat Transfer Surfaces .....................................................................148 5.5 Examples of Optimizing Heat Transfer in Flow over Bodies ..............150 References .............................................................................................................158 Chapter 6 Analytical Methods for Solving Conjugate Convective Heat Transfer Problems ..............................................................................................161 6.1 A Biot Number as a Criterion of the Conjugate Heat Transfer Rate ...............................................................................................161 6.2 General Boundary Condition for Convective Heat Transfer Problems: Errors Caused by Boundary Condition of the Third Kind .... 162 6.3 Reduction of a Conjugate Convective Heat Transfer Problem to an Equivalent Heat Conduction Problem ..........................................166 6.4 Temperature Singularities on the Solid-Fluid Interface ......................179 6.4.1 Basic Equations ...............................................................................179 6.4.2 Examples of Singularities for Different Flow Regimes and Conditions ...............................................................................181 6.4.3 Estimation of Accuracy of the Assumption of a Thermally Thin Body ....................................................................183 6.5 Universal Functions for Solving Conjugate Heat Transfer Problems — Solution Examples ...............................................................183 6.6 Reducing the Unsteady Conjugate Convective Heat Transfer Problem to an Equivalent Heat Conduction Problem ..........................198 6.6.1 Validity of Quasi-Steady Approximation — The Luikov Number as a Conjugate Criterion in Unsteady Heat Transfer .....199 6.6.2 Universal Eigenfunctions for Unsteady Conjugate Heat Transfer Problems ..........................................................................201 6.7 Integral Transforms and Similar Methods ............................................206 6.8 Solutions in Asymptotic Series in Eigenfunctions ...............................210 6.9 Superposition and Other Methods ..........................................................220 6.10 Green s Function and the Method of Perturbation ...............................224 References .............................................................................................................227 Contents Chapter 7 Numerical Methods for Solving Conjugate Convective Heat Transfer Problems ....................................................................................231 7.1 Analytical and Numerical Methods .......................................................231 7.2 Approximate Analytical and Numerical Methods for Solving Differential Equations ...............................................................................234 7.3 Difficulties in Computing Convection-Diffusion and Flow ................240 7.3.1 The Control-Volume Finite-Difference Method ........................240 7.3.1.1 Computing Pressure and Velocity ................................240 7.3.1.2 Computing Convection-Diffusion ...............................242 7.3.1.3 False Diffusion .................................................................245 7.3.1.4 A Case of a Moderate Mach Number ...........................246 7.3.2 The Control-Volume Finite-Element Method ............................246 7.4 Numerial Methods of Conjugation .........................................................249 7.5 Examples of Numerical Studies of the Conjugate Convective Heat Transfer in Pipes and Channels .....................................................252 7.6 Examples of Numerical Studies of the Conjugate Convective Heat Transfer in Flows around and inside Bodies ................................264 References .............................................................................................................283 Part III: Applications Chapter 8 Thermal Treatment of Materials ....................................................................289 8.1 Moving Materials Undergoing Thermal Processing ............................289 8.2 Simulation of Industrial Processes ..........................................................296 8.3 Drying of Continuous Moving Materials ...............................................307 References .............................................................................................................318 Chapter 9 Technological Processes ...................................................................................321 9.1 ,Multiphase and Phase-Change Processes ..............................................321 9.2 Drying and Food Processing ...................................................................333 References .............................................................................................................341 Chapter 10 Manufacturing Equipment Operation ..........................................................343 10.1 Heat Exchangers and Finned Surfaces ...................................................343 10.2 Cooling Systems .....................................;...................................................358 10.2.1 Electronic Packages .......................................................................358 10.2.2 Turbine Blades and Rockets .........................................................362 10.2.3 Cooling by Rewetting Surfaces ....................................................368 References .............................................................................................................377 Conclusion ...........................................................................................................379 Author Index .......................................................................................................383 Subject Index ......................................................................................................389
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spelling	Dorfman, Abram S. 1923- Verfasser (DE-588)139670815 aut Conjugate problems in convective heat transfer Abram S. Dorfman Boca Raton [u.a.] CRC Press 2010 XXXII, 421 S. graph. Darst. txt rdacontent n rdamedia nc rdacarrier Heat transfer 2 Includes bibliographical references and index Heat Transmission Heat Convection Fluid dynamics Strömungsmechanik (DE-588)4077970-1 gnd rswk-swf Konvektion (DE-588)4117572-4 gnd rswk-swf Strömungsmechanik (DE-588)4077970-1 s Konvektion (DE-588)4117572-4 s DE-604 Heat transfer 2 (DE-604)BV035830401 2 Digitalisierung UB Bayreuth application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=018013896&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Dorfman, Abram S. 1923- Conjugate problems in convective heat transfer Heat transfer Heat Transmission Heat Convection Fluid dynamics Strömungsmechanik (DE-588)4077970-1 gnd Konvektion (DE-588)4117572-4 gnd
subject_GND	(DE-588)4077970-1 (DE-588)4117572-4
title	Conjugate problems in convective heat transfer
title_auth	Conjugate problems in convective heat transfer
title_exact_search	Conjugate problems in convective heat transfer
title_full	Conjugate problems in convective heat transfer Abram S. Dorfman
title_fullStr	Conjugate problems in convective heat transfer Abram S. Dorfman
title_full_unstemmed	Conjugate problems in convective heat transfer Abram S. Dorfman
title_short	Conjugate problems in convective heat transfer
title_sort	conjugate problems in convective heat transfer
topic	Heat Transmission Heat Convection Fluid dynamics Strömungsmechanik (DE-588)4077970-1 gnd Konvektion (DE-588)4117572-4 gnd
topic_facet	Heat Transmission Heat Convection Fluid dynamics Strömungsmechanik Konvektion
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work_keys_str_mv	AT dorfmanabrams conjugateproblemsinconvectiveheattransfer

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