Juan C. Godinez scite author profile

The effect of surface roughness on the pool boiling heat transfer of water was investigated on superhydrophilic aluminum surfaces. The formation of nanoscale protrusions on the aluminum surface was confirmed after immersing it in boiling water, which modified surface wettability to form a superhydrophilic surface. The effect of surface roughness was examined at different average roughness (Ra) values ranging from 0.11 to 2.93 μm. The boiling heat transfer coefficients increased with an increase in roughness owing to the increased number of cavities. However, the superhydrophilic aluminum surfaces exhibited degradation of the heat transfer coefficients when compared with copper surfaces owing to the flooding of promising cavities. The superhydrophilic aluminum surfaces exhibited a higher critical heat flux (CHF) than the copper surfaces. The CHF was 1650 kW/m2 for Ra = 0.11 μm, and it increased to 2150 kW/m2 for Ra = 0.35 μm. Surface roughness is considered to affect CHF as it improves the capillary wicking on the superhydrophilic surface. However, further increase in surface roughness above 0.35 μm did not augment the CHF, even at Ra = 2.93 μm. This upper limit of the CHF appears to result from the hydrodynamic limit on the superhydrophilic surface, because the roughest surface with Ra = 2.93 μm still showed a faster liquid spreading speed.

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Capillary evaporation of water from aluminum high-temperature conductive microporous coating

Fadda

Godinez

Lee

et al. 2020

International Journal of Heat and Mass Transfer

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Pool boiling heat transfer of a copper microporous coating in borated water

Jun

Godinez

You

et al. 2020

Nuclear Engineering and Technology

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Juan C. Godinez

Development of a stable Boehmite layer on aluminum surfaces for improved pool boiling heat transfer in water

Enhancement of pool boiling heat transfer in water on aluminum surface with high temperature conductive microporous coating

Effect of Surface Roughness on Pool Boiling Heat Transfer of Water on a Superhydrophilic Aluminum Surface

Capillary evaporation of water from aluminum high-temperature conductive microporous coating

Pool boiling heat transfer of a copper microporous coating in borated water

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