Shu-Han Hsu scite author profile

An investigation of the surface-temperature variation during nucleate pool boiling at atmospheric pressure was conducted. The effect of surface temperature, heat flux, and heating-surface material was investigated. The temperature variation of the surface was found by a specially fabricated thermocouple placed in contact with it. The average maximum temperature variation may be found from the following equation: ΔTavgmax=c[q(f/α)1/2]−αqΔTsur−satk The exponent a is a function of surface roughness. The rate of heat flow was denoted by q in Btu/sq ft-hr, α the thermal diffusivity in sq ft/hr, f the frequency of variations in cphr, k the thermal conductivity in Btu/ft-hr-deg F, and ΔTsur−sat the temperature difference between the heating surface and the saturation temperature of water. The coefficient c and exponent a were determined experimentally for various heating-surface materials and surface finishes.

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Corrigendum to ‘‘On the formation of vapor film during quenching in de-ionized water and elimination of film boiling during quenching in natural sea water’’ [Int. J. Heat Mass Transfer 86 (2015) 65–71]

Hsu

et al. 2016

International Journal of Heat and Mass Transfer

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An investigation into the effects of various platings on the film coefficient during nucleate boiling from horizontal tubes

Bliss

Hsu

Crawford

1969

International Journal of Heat and Mass Transfer

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A simple reaction turbine as a solar engine

Hsu

Leo

1958

Solar Energy

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Shu-Han Hsu

On the formation of vapor film during quenching in de-ionized water and elimination of film boiling during quenching in natural sea water

Measured Variations in Local Surface Temperatures in Pool Boiling of Water

Corrigendum to ‘‘On the formation of vapor film during quenching in de-ionized water and elimination of film boiling during quenching in natural sea water’’ [Int. J. Heat Mass Transfer 86 (2015) 65–71]

An investigation into the effects of various platings on the film coefficient during nucleate boiling from horizontal tubes

A simple reaction turbine as a solar engine

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