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A theoritical and experimental investigation of smooth- and wavy ice layers in laminar and turbulent flow inside an asymmetrically cooled parallel-plate channel

Weigand, B. ; Beer, Hans (1993)
A theoritical and experimental investigation of smooth- and wavy ice layers in laminar and turbulent flow inside an asymmetrically cooled parallel-plate channel.
In: Wärme- und Stoffübertragung, 29 (1)
Article, Bibliographie

Abstract

he present paper shows the adaption of the numerical model originally developed by Weigand and Beer 14 for calculating steady-state ice layers inside an asymmetrically cooled parallel-plate channel. The investigation shows the characteristics in ice formation behaviour due to asymmetrically cooled walls. Further, a simple analytical model is presented for calculating smooth ice layers in turbulent flow. The study is supported by own measurements of the freezing fronts inside an asymmetrically cooled channel. A comparison between theoretical calculations and measurements shows generally good agreement.

Item Type: Article
Erschienen: 1993
Creators: Weigand, B. ; Beer, Hans
Type of entry: Bibliographie
Title: A theoritical and experimental investigation of smooth- and wavy ice layers in laminar and turbulent flow inside an asymmetrically cooled parallel-plate channel
Language: English
Date: 1993
Journal or Publication Title: Wärme- und Stoffübertragung
Volume of the journal: 29
Issue Number: 1
URL / URN: http://dx.doi.org/10.1007/BF01577456
Abstract:

he present paper shows the adaption of the numerical model originally developed by Weigand and Beer 14 for calculating steady-state ice layers inside an asymmetrically cooled parallel-plate channel. The investigation shows the characteristics in ice formation behaviour due to asymmetrically cooled walls. Further, a simple analytical model is presented for calculating smooth ice layers in turbulent flow. The study is supported by own measurements of the freezing fronts inside an asymmetrically cooled channel. A comparison between theoretical calculations and measurements shows generally good agreement.

Divisions: 16 Department of Mechanical Engineering
16 Department of Mechanical Engineering > Institute for Technical Thermodynamics (TTD)
Date Deposited: 26 Feb 2015 16:49
Last Modified: 05 Aug 2019 13:12
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