Mathematical modeling of hydrodynamic and heat transfer in a two-phase thermosyphon

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Abstract

This paper presents the solution results of conjugate forced convection boundary value problem in a typical rectangular cross-section thermosyphon. The influence of convective heat exchange at the external top horizontal boundary on the heat transfer intensity in such energy removing device is shown. It is found that temperature distributions in thermosyphon steam channel to the Y direction obtain monotonous character with increasing heat exchange coefficient to the environment.

Original languageEnglish
Article number01003
JournalEPJ Web of Conferences
Volume110
DOIs
Publication statusPublished - 23 Feb 2016

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thermosiphons
heat transfer
hydrodynamics
heat
forced convection
boundary value problems
steam
temperature distribution
cross sections
coefficients
energy

ASJC Scopus subject areas

  • Physics and Astronomy(all)

Cite this

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title = "Mathematical modeling of hydrodynamic and heat transfer in a two-phase thermosyphon",
abstract = "This paper presents the solution results of conjugate forced convection boundary value problem in a typical rectangular cross-section thermosyphon. The influence of convective heat exchange at the external top horizontal boundary on the heat transfer intensity in such energy removing device is shown. It is found that temperature distributions in thermosyphon steam channel to the Y direction obtain monotonous character with increasing heat exchange coefficient to the environment.",
author = "Alexander Nee and Atlant Nurpeiis",
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AB - This paper presents the solution results of conjugate forced convection boundary value problem in a typical rectangular cross-section thermosyphon. The influence of convective heat exchange at the external top horizontal boundary on the heat transfer intensity in such energy removing device is shown. It is found that temperature distributions in thermosyphon steam channel to the Y direction obtain monotonous character with increasing heat exchange coefficient to the environment.

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