Modeling of mixed-convection laminar film condensation from mixtures of a vapor and a lighter noncondensable gas

The effects of a lighter noncondensable gas on laminar film condensation from moving vapor-gas mixtures was investigated. Condensation occurred on the top of an isothermal flat plate with an arbitrary inclination. The liquid film and the mixture boundary layers were described with the conservation e...

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Main Author: Srzic, Vlajko
Language:en_US
Published: 2007
Online Access:http://hdl.handle.net/1993/993
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spelling ndltd-LACETR-oai-collectionscanada.gc.ca-MWU.1993-9932014-03-29T03:40:59Z Modeling of mixed-convection laminar film condensation from mixtures of a vapor and a lighter noncondensable gas Srzic, Vlajko The effects of a lighter noncondensable gas on laminar film condensation from moving vapor-gas mixtures was investigated. Condensation occurred on the top of an isothermal flat plate with an arbitrary inclination. The liquid film and the mixture boundary layers were described with the conservation equations for mass, momentum, energy, and gas species (for the mixture boundary layer only). A finite volume method was applied on a staggered grid in the numerical solution domain. The properties for both liquid and mixture were evaluated at the local temperature. The solution procedure was terminated either when the separation criteria were met or when the flow reached the transition to turbulence. The main objectives of the study were to investigate the mixture boundary layer separation distance and the reduction in heat transfer to the wall due to the presence of a lighter noncondensable gas. Three vapor-gas combinations were studied: steam-hydrogen, Freon12-air, and mercury-air. Applying two simple collapsing procedures, a set of graphs is presented for each vapor-gas combination which can be used to estimate the separation length for a given set of input parameters. For each mixture and for a given free stream temperature, the variation of Nusselt number (normalized by the square root of the local Reynolds number) along the plate is also presented for different values of gas concentration and wall temperature. (Abstract shortened by UMI.) 2007-05-15T15:25:24Z 2007-05-15T15:25:24Z 1997-07-01T00:00:00Z http://hdl.handle.net/1993/993 en_US
collection NDLTD
language en_US
sources NDLTD
description The effects of a lighter noncondensable gas on laminar film condensation from moving vapor-gas mixtures was investigated. Condensation occurred on the top of an isothermal flat plate with an arbitrary inclination. The liquid film and the mixture boundary layers were described with the conservation equations for mass, momentum, energy, and gas species (for the mixture boundary layer only). A finite volume method was applied on a staggered grid in the numerical solution domain. The properties for both liquid and mixture were evaluated at the local temperature. The solution procedure was terminated either when the separation criteria were met or when the flow reached the transition to turbulence. The main objectives of the study were to investigate the mixture boundary layer separation distance and the reduction in heat transfer to the wall due to the presence of a lighter noncondensable gas. Three vapor-gas combinations were studied: steam-hydrogen, Freon12-air, and mercury-air. Applying two simple collapsing procedures, a set of graphs is presented for each vapor-gas combination which can be used to estimate the separation length for a given set of input parameters. For each mixture and for a given free stream temperature, the variation of Nusselt number (normalized by the square root of the local Reynolds number) along the plate is also presented for different values of gas concentration and wall temperature. (Abstract shortened by UMI.)
author Srzic, Vlajko
spellingShingle Srzic, Vlajko
Modeling of mixed-convection laminar film condensation from mixtures of a vapor and a lighter noncondensable gas
author_facet Srzic, Vlajko
author_sort Srzic, Vlajko
title Modeling of mixed-convection laminar film condensation from mixtures of a vapor and a lighter noncondensable gas
title_short Modeling of mixed-convection laminar film condensation from mixtures of a vapor and a lighter noncondensable gas
title_full Modeling of mixed-convection laminar film condensation from mixtures of a vapor and a lighter noncondensable gas
title_fullStr Modeling of mixed-convection laminar film condensation from mixtures of a vapor and a lighter noncondensable gas
title_full_unstemmed Modeling of mixed-convection laminar film condensation from mixtures of a vapor and a lighter noncondensable gas
title_sort modeling of mixed-convection laminar film condensation from mixtures of a vapor and a lighter noncondensable gas
publishDate 2007
url http://hdl.handle.net/1993/993
work_keys_str_mv AT srzicvlajko modelingofmixedconvectionlaminarfilmcondensationfrommixturesofavaporandalighternoncondensablegas
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