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RAUDENSKÝ, M. ASTROUSKI, I. BROŽOVÁ, T.
Original Title
Polymeric hollow fiber heat exchangers
English Title
Author(s)
RAUDENSKÝ, M.; ASTROUSKI, I.; BROŽOVÁ, T.
Type
článek ve sborníku ve WoS nebo Scopus
Language
en
Original Abstract
Metallic heat exchangers have a number of well-known shortcomings such as high weight and cost and low resistance to corrosion. Polymeric hollow fiber heat exchangers were proposed about a decade ago as an alternative for low temperature applications. Although experimental results have been published for liquid-to-liquid applications, there is no data for liquid-to-gas applications. To overcome this lack of data, two liquid-to-air cross-flow heat exchangers were prepared and tested. Two types of polypropylene hollow fibers (wall thickness 50 μm, outside diameter 800 μm and 600 μm) were used to create heat exchangers with a heat exchange area of approximately 0.6 m2. An original approach (fiber fabrics were woven) was utilized to achieve a uniform distribution of fibers. The heat transfer performance was studied with hot liquids (60–90°C ethyleneglycolwater brine or water) flowing inside the fibers and cooling air flowing across the fibers. Experiments showed that hollow fiber cross-flow heat exchangers can achieve high values of overall heat-transfer coefficients (200–450 W/m2 K) and can compete to ordinary finned-tube heat exchangers.
English abstract
Keywords
polymeric hollow fibers, heat exchanger, forced convection
Publisher
Wessex Institute
Location
UK
ISBN
978-1-78466-109-0
Book
Heat Transfer XIV Simulation and Experiments in Heat Transfer and its Applications
Issue number
106
Pages from
95
Pages to
105
Pages count
11
URL
https://www.witpress.com/books/978-1-78466-109-0
BibTex
@inproceedings{BUT127987, author="Miroslav {Raudenský} and Ilja {Astrouski} and Tereza {Kůdelová}", title="Polymeric hollow fiber heat exchangers", annote="Metallic heat exchangers have a number of well-known shortcomings such as high weight and cost and low resistance to corrosion. Polymeric hollow fiber heat exchangers were proposed about a decade ago as an alternative for low temperature applications. Although experimental results have been published for liquid-to-liquid applications, there is no data for liquid-to-gas applications. To overcome this lack of data, two liquid-to-air cross-flow heat exchangers were prepared and tested. Two types of polypropylene hollow fibers (wall thickness 50 μm, outside diameter 800 μm and 600 μm) were used to create heat exchangers with a heat exchange area of approximately 0.6 m2. An original approach (fiber fabrics were woven) was utilized to achieve a uniform distribution of fibers. The heat transfer performance was studied with hot liquids (60–90°C ethyleneglycolwater brine or water) flowing inside the fibers and cooling air flowing across the fibers. Experiments showed that hollow fiber cross-flow heat exchangers can achieve high values of overall heat-transfer coefficients (200–450 W/m2 K) and can compete to ordinary finned-tube heat exchangers.", address="Wessex Institute", booktitle="Heat Transfer XIV Simulation and Experiments in Heat Transfer and its Applications", chapter="127987", doi="10.2495/HT160101", howpublished="online", institution="Wessex Institute", year="2016", month="september", pages="95--105", publisher="Wessex Institute", type="conference paper" }