Detail publikace
Thermal Performance Study of Polymeric Hollow-Fiber Heat-Exchangers
RAUDENSKÝ, M. TSENG, A.
Anglický název
Thermal Performance Study of Polymeric Hollow-Fiber Heat-Exchangers
Typ
článek ve sborníku mimo WoS a Scopus
Jazyk
en
Originální abstrakt
Polymerichollow-fiberheat-exchangers (PHFHEs) have recently attracted great attentionsfortheir superiorcharacters, from light weight to high chemical resistance, as compared with that ofmetal-based heat exchangers (MBHEs). In this article, a PHFHE, which can be usedfor carradiators, is built to test its thermalperformancein an experimental wind tunnel. A MBHE,which uses stainless steel tubes, has also been built with the major geometrical parametersequivalent to that of the PHFHE tested, so that the results from these two heat exchangers can becompared with each other. Experimental results indicate that the heat flow of the PHFHE can be more than 11% higher than that of the stainless-steel heat exchanger at similar operationconditions.
Anglický abstrakt
Polymerichollow-fiberheat-exchangers (PHFHEs) have recently attracted great attentionsfortheir superiorcharacters, from light weight to high chemical resistance, as compared with that ofmetal-based heat exchangers (MBHEs). In this article, a PHFHE, which can be usedfor carradiators, is built to test its thermalperformancein an experimental wind tunnel. A MBHE,which uses stainless steel tubes, has also been built with the major geometrical parametersequivalent to that of the PHFHE tested, so that the results from these two heat exchangers can becompared with each other. Experimental results indicate that the heat flow of the PHFHE can be more than 11% higher than that of the stainless-steel heat exchanger at similar operationconditions.
Klíčová slova anglicky
heat exchanger; polymer hollow-fiber; similarity system, thermal analysis
Vydáno
27.01.2018
Ročník
2
Číslo
1
Strany od–do
1–10
Počet stran
10
BIBTEX
@inproceedings{BUT153376,
author="Miroslav {Raudenský} and A. A. {Tseng},
title="Thermal Performance Study of Polymeric Hollow-Fiber Heat-Exchangers",
year="2018",
volume="2",
number="1",
month="January",
pages="1--10"
}