Advances in heat transfer. Volume 14 /

ADVANCES IN HEAT TRANSFER VOLUME 14.

Detalles Bibliográficos
Clasificación:Libro Electrónico
Otros Autores: Harnett, J. P. (James P.), Irvine, Thomas F. (Thomas Francis)
Formato: Electrónico eBook
Idioma:Inglés
Publicado: New York ; London : Academic Press, 1978.
Colección:Advances in heat transfer ; v. 14
Temas:
Energy transfer.
Heat > Transmission.
Energy Transfer
Transfert d'�energie.
Chaleur > Transmission.
heat transmission.
TECHNOLOGY & ENGINEERING > Mechanical.
Energy transfer
Heat > Transmission
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Front Cover; Advances in Heat Transfer, Volume 14; Copyright Page; Contents; List of Contributors; Preface; Contents of Previous Volumes; Chapter 1. Heat Transfer in Geothermal Systems; I. Introduction; II. Governing Equation for Convective Heat Transfer in Geothermal Systems; III. Heat Transfer in Hot-Water Geothermal Systems; IV. Heat Transfer in Water-Steam Two-Phase Geothermal Systems; V. Heat Transfer in Geopressured Geothermal Systems; VI. Lumped Parameter Analyses; VII. Heat Transfer in Other Geothermal Systems; VIII. Heat Transfer in a Geothermal Wellbore; IX. Concluding Remarks
  • III. Total Heat Transfer Coefficients for Horizontal and Slanted TubesIV. Local Heat Transfer Coefficients for Vertical Tubes; V. Total Heat Transfer Coefficients for Vertical Tubes; VI. Packed-Fluidized Beds; VII. General Conclusions; References; Chapter 4. Influence of Radiative Transfer on Certain Types of Motions in Planetary Atmospheres; I. Introduction; II. Rate of Radiative Decay of Temperature Perturbations for Local Thermodynamic Equilibrium; III. Radiative Decay of Temperature Perturbations for non-LTE; IV. Rate of Radiative Decay of Turbulent Temperature Fluctuations for LTE
  • V. Influence of Radiative Decay on TurbulenceVI. Damping of Acoustic-Gravity Waves; References; Chapter 5. Homogeneous Nucleation; I. Introduction; II. Supersaturation; III. Formation of Aggregates, Embryos, Nuclei, and Droplets; IV. Description of the Problem; V. Formation of Embryos and Nuclei (Classical Theory); VI. Equilibrium Size Distribution of Embryos (Classical Theory); VII. Steady-State Nucleation Rate (Classical Theory); VIII. Modifications of the Classical Theory; IX. Time to Reach Steady State. The Time Lag; X. Comparisons of Steady-State Solutions with Experiments
  • XI. Concluding RemarksReferences; Author Index; Subject Index

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