Transport phenomena in capillary-porous structures and heat pipes /

Two-phase nano- and micro-thermal control device research is now proving relevant to a growing range of modern applications, including those in cryogenics, thermal engineering, MEMS, and aerospace engineering. Until now, researchers have lacked a definitive resource that provides a complete review o...

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Bibliographic Details
Main Author:	Smirnov, H. F. (Henry F.)
Corporate Author:	Taylor & Francis
Format:	eBook
Language:	English
Published:	Boca Raton, FL : CRC Press, ©2010.
Subjects:	Ebullition > Experiments. Heat > Transmission > Experiments. Capillarity > Experiments. Mesoporous materials > Heating > Experiments. Heat pipes > Experiments. Ébullition > Expériences. Chaleur > Transmission > Expériences. Capillarité > Expériences. Matériaux mésoporeux > Chauffage > Expériences. Caloducs > Expériences. TECHNOLOGY & ENGINEERING > Mechanical. Heat > Transmission > Experiments Electronic books.
Online Access:	Connect to the full text of this electronic book

Table of Contents:

Hydrodynamics and Heat Transfer at Single-PhaseFlow in Capillary and Slit Channels; Hydrodynamics and Heat Transfer of SteadySingle-Phase Flow in Capillaries and Slits; Hydrodynamics and Heat Transfer of Nonsteady Single-Phase Laminar Flow; Hydrodynamics and Heat Transfer of Single-PhaseTurbulent Flow in Capillaries and Slits; ; Hydrodynamics and Heat Transfer atSingle-Phase Flow through Porous Media; Physical Fundamentals, Models,
And Equationsof Momentum and Heat Transfer at Single-Flowthrough Porous Media; Effective Thermal Conductivityof Porous Structures; Internal Heat Transfer in Porous Media; Heat Transfer on the PorousStructure External Surface; ; Thermohydrodynamics at Vaporizationinside Capillary-Porous Structures; Vaporization Conditions in Capillariesand Capillary-Porous Structures; Hydrodynamics at Vaporization inCapillary-Porous Structures; Fundamental Principle of "Irreversibility Minimum"in Two-Phase Filtration Modeling; Investigations of Vaporization in Porous Structureswith Internal Heat Generation; Experimental Investigations of Internal Characteristicsand Mechanisms of Thermohydrodynamic Phenomena; ; Thermohydrodynamics at Vaporizationin Slit and Capillary Channels; Experimental Studies on Heat Transfer atBoiling in Slits and Capillary Channels; Hydrodynamic Phenomena and Vaporizationin Slit and Capillary Channels; Experimental Studies of
Vaporization Mechanismin Plain Slits and Annular Channels; Physical Imaginations and TheoreticalModels for Heat Transfer at Vaporizationin Vertical Slits and Capillaries; Physical Imaginations and Theoretical Modelsfor Heat Transfer at Vaporization in Horizontaland Short Slits and Capillaries; ; Heat and Mass Transfer at Vaporization onSurfaces with Capillary-Porous Coverings; Experimental Investigations of Vaporization HeatTransfer on Surfaces with Porous Coatings; Experiments on Heat Transfer at Vaporization onSurfaces with Sintered Coatings: The MalyshenkoPhenomenological Theory of Boiling; Physical Imaginations and Models of Vaporizationon Surfaces with Porous Coatings; General Model of Vaporization Processeson the Coated Surfaces (the Third Stage); Heat Transfer at Vaporization on SurfacesCovered by Movable Capillary Structures; Models of Heat Transfer inside Evaporators of LHP and Capillary Pumped Loops; ; Heat Transfer Crises at Vaporization
Inside Slits, Capillaries, and on Surfaces Covered by Capillary-Porous Structures; Physical Explanations and SemiempiricalModels of Boiling Heat Transfer Crisis; Modified Hydrodynamic Theory of Boiling Crises in Restricted Spaces; Experiments on Boiling Heat Transfer Crisis atForced Liquid Flow in Slits and Capillary Tubes; Experimental Research on the CHF at Pool Boiling inSlits, Capillaries, and Corrugated Capillary Channels; Experimental Research on Heat Transfer Crisisat Boiling on Surfaces with Porous Coverings; Maximum Heat Fluxes Inside Heat Pipes; References; Index