R. Reyes scite author profile

A new adsorption model for the spreading dynamics of completely wetting fluids on a heated solid substrate that emphasizes interfacial phenomena is developed and evaluated. The model is based on the premise that both interfacial intermolecular forces and temperature affect the vapor pressure in change-of-phase heat transfer and (therefore) the spreading velocity. Classical change-of-phase kinetics, and interfacial concepts like the Clapeyron, Kelvin, and the augmented Young–Laplace equations are used to evaluate the effects of stress (change in apparent dynamic contact angle), temperature, and superheat on the rewetting velocity. Explicit equations are obtained for the velocity, heat flux, and superheat in the contact line region as a function of the initial plate temperature. Comparisons with experimental data for substrate superheats below a critical value demonstrate that the resulting interfacial model of evaporation/condensation in the contact line region can describe the effect of the saturation temperature and superheat on the rewetting velocity.

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An Adsorption Model for the Superheat at the Critical Heat Flux

Reyes

Wayner

1995

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Interfacial energies of aqueous mixtures and porous coverings for enhancing pool boiling heat transfer

Meléndez

Reyes

2006

International Journal of Thermal Sciences

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Evaluation of technologies for a desalination operation and disposal in the Tularosa Basin, New Mexico

Téllez¹,

Lom²,

Chargoy³

et al. 2009

Desalination

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R. Reyes

The pool boiling heat transfer enhancement from experiments with binary mixtures and porous heating covers

A Kelvin–Clapeyron Adsorption Model for Spreading on a Heated Plate

An Adsorption Model for the Superheat at the Critical Heat Flux

Interfacial energies of aqueous mixtures and porous coverings for enhancing pool boiling heat transfer

Evaluation of technologies for a desalination operation and disposal in the Tularosa Basin, New Mexico

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