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Gravity effect on spray impact and spray coolin

Gambaryan-Roisman, Tatiana and Kyriopoulos, O. and Roisman, Ilia V. and Stephan, Peter and Tropea, Cameron (2007):
Gravity effect on spray impact and spray coolin.
In: Proceedings 2nd Int. Topical Team Workshop on Two-Phase Systems for Ground and Space Applications, [Conference or Workshop Item]

Abstract

An experimental study of the film produced by the spray impact on a heated target and of the spray cooling has been performed in normal gravity and in microgravity conditions during parabolic flights. A convex shape of the target allowed visualization of the film evolution and determination of the film characteristics using the image processing. The effects of the spray parameters and of the gravity level on heat transfer have been investigated. It has been found that the spray cooling efficiency depends on the water flow rate in a non-monotonous way. A range of spray parameters at which the effect of gravity level on heat transfer is significant has been determined. It has been found that the spray cooling is less effective in microgravity conditions in comparison with normal gravity and hypergravity.

Item Type: Conference or Workshop Item
Erschienen: 2007
Creators: Gambaryan-Roisman, Tatiana and Kyriopoulos, O. and Roisman, Ilia V. and Stephan, Peter and Tropea, Cameron
Title: Gravity effect on spray impact and spray coolin
Language: English
Abstract:

An experimental study of the film produced by the spray impact on a heated target and of the spray cooling has been performed in normal gravity and in microgravity conditions during parabolic flights. A convex shape of the target allowed visualization of the film evolution and determination of the film characteristics using the image processing. The effects of the spray parameters and of the gravity level on heat transfer have been investigated. It has been found that the spray cooling efficiency depends on the water flow rate in a non-monotonous way. A range of spray parameters at which the effect of gravity level on heat transfer is significant has been determined. It has been found that the spray cooling is less effective in microgravity conditions in comparison with normal gravity and hypergravity.

Divisions: 16 Department of Mechanical Engineering
16 Department of Mechanical Engineering > Institute for Technical Thermodynamics (TTD)
Event Title: Proceedings 2nd Int. Topical Team Workshop on Two-Phase Systems for Ground and Space Applications
Date Deposited: 26 Feb 2015 16:28
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