Heat Transfer I / Max JAKOB

Titre : Heat Transfer I Type de document : texte imprimé Auteurs : Max JAKOB, Auteur Mention d'édition : second printing Editeur : John Wiley & Sons, Inc. Année de publication : 1950 Importance : 758 p. Note générale : Preface Contents List of Tables Selective of Figures Introduction Problems Nomenclature Catégories : Chaleur:Conduction Chaleur:Convection Index. décimale : 536.2 Transmission (transfert thermique) Résumé : BASIC EQUATIONS OF HEAT TRANSFER The Basic Equation of Heat Conduction The Basic Equations of Heat Convection The Basic Equation of Heat Radiation PROPERTY OF MATTER SIGNIFICANT FOR HEAT TRANSFER Viscosity Thermal Conductivity Emissivity (Absorptivity) HEAT CONDUCTION IN SIMPLE BODIES Heat Conduction in Steady State without Heat Gains or Losses Conductivity Measurements Using a Steady and Constant Heat Flow Heat Conduction in Steady State, Including Internal Heat Generation Heat Conduction in Steady State, Including Heat Dissipation to the Environment Heat Conduction in Steady State, Including Internal Heat Generation and Heat Losses to the Environment Heat Conduction in Non-Periodie Temperature Changes without Heat Losses Gains Heat Conduction in Periodie Temperature Changes without Heat Losses or Gains Heat Conduction at Variable Temperature, Including Internal Heat Generation and Heat Dissipation to the Environment Some Applications of the Unsteady-state Equations Special Mathematical Methods Used in Heat Conduction Numerical Methods for the Solution of Heat-conduction Problems Graphical Methods for the Solution of Heat-conduction Problems Experimental Analogy Methods for the Solution of Heat-conduction Problems HEAT CONVECTION WITHOUT CHANGE OF PHASE OR CONSTITUTION Some General Features of Heat Convection Analytical Solutions of the Convection Equations Similarity Relations for Heat Convection Similarity between Thermal and Dynamical Transfer, without and with the Boundary-layer Concept Experiments on Forced Convection and Their Correlation Optical Methods of Determining Heat Transfer by Convection HEAT CONVECTION INCLUDING CHANGE OF PHASE Similarity between Heat Convection and Mass Exchange Heat Transfer in Evaporation Heat Transfer in Condensation

Exemplaires (1)

Code-barres	Cote	Support	Localisation	Section	Disponibilité
B00012828	536.2 JAK	Ouvrage	BIBLIOTHÈQUE - ACCÈS LIBRE	500 - Sciences - Mathématiques	Disponible

II. Heat Transfer / Max JAKOB

Titre : Heat Transfer Type de document : texte imprimé Auteurs : Max JAKOB Editeur : John Wiley & Sons, Inc. Année de publication : 1957 Importance : 652 p. Note générale : Acknowledgment Preface Contents List of Tables Selective List of Figures Appendix A : Problems Appendix B : Nomenclature Appendix C : Conversion factors Appendix D : Bibliography and Author Index Appendix E : Subject Index Catégories : Thermocinétique Index. décimale : 536.2 Transmission (transfert thermique) Résumé : Heat Radiation through a Non-absorbing Medium Heat Radiation through absorbing Media Heat Transfer in Thermometry and Related Branches of Measurement Ordinary Heat Exchangers (Recuperators) Regenerators Cooling Towers Cooling by Falling Liquid Films Cooling of Surfaces Exposed to Hot Gases Heat Transfer through Laminar Boundary Layer at High Fluid Velocity Heat Transfer through Turbulent Boundary Layer at High Fluid Velocity Heat Transfer in Liquid Metals Steady-state Heat Transfer in Packed Columns

Exemplaires (1)

Code-barres	Cote	Support	Localisation	Section	Disponibilité
B00005948	536.2 JAK	Ouvrage	BIBLIOTHÈQUE - ACCÈS LIBRE	500 - Sciences - Mathématiques	Disponible

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