Publication detail
Heat Transfer during Spray Cooling of Flat Surfaces with Water at Large Reynolds Numbers
HNÍZDIL, M. CHABIČOVSKÝ, M. RAUDENSKÝ, M. LEE, T.
English title
Heat Transfer during Spray Cooling of Flat Surfaces with Water at Large Reynolds Numbers
Type
journal article - other
Language
en
Original abstract
We present a new Nusselt number correlation for spray cooling at large Reynolds numbers and high surface temperatures for water sprays impinging perpendicularly onto a flat plate. A large set of experimental data on spray cooling of hot surfaces with water has been analyzed, including the water temperature effects. For large-scale cooling, such as in industrial processes, large number of injection parameters such as number, type, pressure, and angle of the spray injection has led to a multitude of correlations that are difficult for general and practical applications. However, by synthesizing a set of experimental data where all of the above parameters have been varied, we find that the Nusselt number and therefore the heat transfer coefficient can be cast accurately as a function of the Reynolds number. Water is widely used as the coolant during spray cooling, and has a specific phase change characteristic. At large Reynolds number (Re > 100,000) and surface temperature (Ts > 600°C) ranges, which are of interest in large-scale spray cooling, the effect of water temperature is quite significant as it affects the film boiling close to the surface. This effect also has been parameterized using experimental data.
English abstract
We present a new Nusselt number correlation for spray cooling at large Reynolds numbers and high surface temperatures for water sprays impinging perpendicularly onto a flat plate. A large set of experimental data on spray cooling of hot surfaces with water has been analyzed, including the water temperature effects. For large-scale cooling, such as in industrial processes, large number of injection parameters such as number, type, pressure, and angle of the spray injection has led to a multitude of correlations that are difficult for general and practical applications. However, by synthesizing a set of experimental data where all of the above parameters have been varied, we find that the Nusselt number and therefore the heat transfer coefficient can be cast accurately as a function of the Reynolds number. Water is widely used as the coolant during spray cooling, and has a specific phase change characteristic. At large Reynolds number (Re > 100,000) and surface temperature (Ts > 600°C) ranges, which are of interest in large-scale spray cooling, the effect of water temperature is quite significant as it affects the film boiling close to the surface. This effect also has been parameterized using experimental data.
Keywords in English
Impinging Flow, Spray Cooling, Heat Transfer, Measurements
Released
27.07.2016
Publisher
Scientific Research publishing
ISSN
2329-3330
Volume
4
Number
3
Pages from–to
104–113
Pages count
10
BIBTEX
@article{BUT140001,
author="Milan {Hnízdil} and Martin {Chabičovský} and Miroslav {Raudenský} and Tae-Woo {Lee},
title="Heat Transfer during Spray Cooling of Flat Surfaces with Water at Large Reynolds Numbers",
year="2016",
volume="4",
number="3",
month="July",
pages="104--113",
publisher="Scientific Research publishing",
issn="2329-3330"
}