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Advances in heat transfer. Volume 35 /

Heat transfer is the exchange of heat energy between a system and its surrounding environment, which results from a temperature difference and takes place by means of a process of thermal conduction, mechanical convection, or electromagnetic radiation. Advances in Heat Transfer is designed to fill t...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Otros Autores: Hartnett, J. P. (James P.), Irvine, Thomas F. (Thomas Francis), Cho, Young I.
Formato: Electrónico eBook
Idioma:Inglés
Publicado: San Diego ; Boston : Academic Press, �2001.
Colección:Advances in heat transfer ; v. 35
Temas:
Acceso en línea:Texto completo
Texto completo
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MARC

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245 0 0 |a Advances in heat transfer.  |n Volume 35 /  |c serial editors, James P. Hartnett, Thomas F. Irvine Jr. ; serial associate editors, Young I. Cho [and others]. 
260 |a San Diego ;  |a Boston :  |b Academic Press,  |c �2001. 
300 |a 1 online resource (xi, 322 pages) :  |b illustrations 
336 |a text  |b txt  |2 rdacontent 
337 |a computer  |b c  |2 rdamedia 
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490 0 |a Advances in heat transfer ;  |v v. 35 
504 |a Includes bibliographical references and indexes. 
520 |a Heat transfer is the exchange of heat energy between a system and its surrounding environment, which results from a temperature difference and takes place by means of a process of thermal conduction, mechanical convection, or electromagnetic radiation. Advances in Heat Transfer is designed to fill the information gap between regularly scheduled journals and university-level textbooks by providing in-depth review articles over a broader scope than is allowable in either journals or texts. 
588 0 |a Print version record. 
505 0 |a Cover; Copyright Page; Contents; Contributors; Preface; Chapter 1. Thermal Performance Testing of Industrial Heat Exchangers; I. Introduction; II. Test Methods; III. Analysis of Results; IV. Uncertainty Assessment; V. Conclusions and Future Work; Nomenclature; References; Chapter 2. Boiling Heat Transfer and Bubble Dynamics in Microgravity; I. Introduction; II. Compensation of Earth Gravity; III. Boiling Curve at 1-g and u-g; IV. Realization of Experiments; V. Heat Transfer at Saturated Nucleate Boiling; VI. Heat Transfer at Subcooled Nucleate Boiling; VII. Critical Heat Flux 
505 8 |a VIII. Film BoilingIX. Conclusions Drawn from Microgravity Boiling; X. Bubble Growth Model; XI. Bubble and Boiling Dynamics; XII. Why Enhancement? Why Diminution?; XIII. Application of Boiling in Microgravity; XIV. Conclusions and Future Perspectives; Nomenclature; References; Chapter 3. Heat Transfer and Fluid Flow in Rotating Sealed Cavities; I. Introduction; II. Infinite Rotating Disk Flows; III. Finite Unshrouded Disk Systems; IV. Isothermal Sealed Cavities; V. Sealed Cavities with an Imposed Thermal Gradient; VI. Two-Equation Turbulence Model and Low Reynolds Number Effects 
505 8 |a VII. Turbulence Modeling for Rotational EffectsVIII. Numerical Convergence Considerations; IX. Concluding Remarks; Appendix. Summary of Sealed Cavity Investigations; References; Chapter 4. Recent Advances in the Modeling and Applications of Nonconventional Heat Pipes; I. Introduction; II. Thermal Analysis; III. Thermodynamics and Fundamental Aspects; IV. Heat Pipe Startup from the Frozen State; V. Discrete Heat Sources at the Evaporator; VI. Heat Pipe Applications; VII. Micro Heat Pipes; VIII. Thermosyphons; IX. Capillary Pumped Loops; X. Inventions and Patents; XI. Closure; Nomenclature 
546 |a English. 
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700 1 |a Hartnett, J. P.  |q (James P.) 
700 1 |a Irvine, Thomas F.  |q (Thomas Francis) 
700 1 |a Cho, Young I. 
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