Impact of Fe powder sintering and soldering in production of porous heating surface on flow boiling heat transfer in minichannels

This paper focuses on identification of the impact of porous heated surface on flow boiling heat transfer in a rectangular minichannel. The heated element for Fluorinert FC-72 was a thin plate made of Haynes-230. Infrared thermography was used to determine changes in the temperature on its outer smo...

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Main Authors: Depczyński Wojciech, Piasecki Artur, Piasecka Magdalena, Strąk Kinga
Format: Article
Language:English
Published: EDP Sciences 2017-01-01
Series:E3S Web of Conferences
Online Access:https://doi.org/10.1051/e3sconf/20171903012
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spelling doaj-fb61508434dd4a2880fbbf305fcbd0b92021-02-02T07:42:22ZengEDP SciencesE3S Web of Conferences2267-12422017-01-01190301210.1051/e3sconf/20171903012e3sconf_eems2017_03012Impact of Fe powder sintering and soldering in production of porous heating surface on flow boiling heat transfer in minichannelsDepczyński WojciechPiasecki ArturPiasecka MagdalenaStrąk KingaThis paper focuses on identification of the impact of porous heated surface on flow boiling heat transfer in a rectangular minichannel. The heated element for Fluorinert FC-72 was a thin plate made of Haynes-230. Infrared thermography was used to determine changes in the temperature on its outer smooth side. The porous surface in contact with the fluid in the minichannel was produced in two processes: sintering or soldering of Fe powder to the plate. The results were presented as relationships between the heat transfer coefficient and the distance from the minichannel inlet and as boiling curves. Results obtained for using a smooth heated plate at the saturated boiling region were also presented to compare. In the subcooled boiling region, at a higher heat flux, the heat transfer coefficient was slightly higher for the surface prepared via soldering. In the saturated boiling region, the local heat transfer coefficients obtained for the smooth plate surface were slightly higher than those achieved from the sintered plate surface. The porous structures formed have low thermal conductivity. This may induce noticeable thermal resistance at the diffusion bridges of the sintered structures, in particular within the saturated boiling region.https://doi.org/10.1051/e3sconf/20171903012
collection DOAJ
language English
format Article
sources DOAJ
author Depczyński Wojciech
Piasecki Artur
Piasecka Magdalena
Strąk Kinga
spellingShingle Depczyński Wojciech
Piasecki Artur
Piasecka Magdalena
Strąk Kinga
Impact of Fe powder sintering and soldering in production of porous heating surface on flow boiling heat transfer in minichannels
E3S Web of Conferences
author_facet Depczyński Wojciech
Piasecki Artur
Piasecka Magdalena
Strąk Kinga
author_sort Depczyński Wojciech
title Impact of Fe powder sintering and soldering in production of porous heating surface on flow boiling heat transfer in minichannels
title_short Impact of Fe powder sintering and soldering in production of porous heating surface on flow boiling heat transfer in minichannels
title_full Impact of Fe powder sintering and soldering in production of porous heating surface on flow boiling heat transfer in minichannels
title_fullStr Impact of Fe powder sintering and soldering in production of porous heating surface on flow boiling heat transfer in minichannels
title_full_unstemmed Impact of Fe powder sintering and soldering in production of porous heating surface on flow boiling heat transfer in minichannels
title_sort impact of fe powder sintering and soldering in production of porous heating surface on flow boiling heat transfer in minichannels
publisher EDP Sciences
series E3S Web of Conferences
issn 2267-1242
publishDate 2017-01-01
description This paper focuses on identification of the impact of porous heated surface on flow boiling heat transfer in a rectangular minichannel. The heated element for Fluorinert FC-72 was a thin plate made of Haynes-230. Infrared thermography was used to determine changes in the temperature on its outer smooth side. The porous surface in contact with the fluid in the minichannel was produced in two processes: sintering or soldering of Fe powder to the plate. The results were presented as relationships between the heat transfer coefficient and the distance from the minichannel inlet and as boiling curves. Results obtained for using a smooth heated plate at the saturated boiling region were also presented to compare. In the subcooled boiling region, at a higher heat flux, the heat transfer coefficient was slightly higher for the surface prepared via soldering. In the saturated boiling region, the local heat transfer coefficients obtained for the smooth plate surface were slightly higher than those achieved from the sintered plate surface. The porous structures formed have low thermal conductivity. This may induce noticeable thermal resistance at the diffusion bridges of the sintered structures, in particular within the saturated boiling region.
url https://doi.org/10.1051/e3sconf/20171903012
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AT piaseckiartur impactoffepowdersinteringandsolderinginproductionofporousheatingsurfaceonflowboilingheattransferinminichannels
AT piaseckamagdalena impactoffepowdersinteringandsolderinginproductionofporousheatingsurfaceonflowboilingheattransferinminichannels
AT strakkinga impactoffepowdersinteringandsolderinginproductionofporousheatingsurfaceonflowboilingheattransferinminichannels
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