Sub Lee Song scite author profile

The improvement of surface wettability has been considered as a key factor of nanofluid critical heat flux (CHF) enhancement. However, the authors found that improved wettability did not influence on CHF at all. In this paper, the independent effect of surface wettability on CHF was experimentally investigated. The wettability of surface was controlled by DC plasma sputtering of TiO2 without any formation of porous structure. By controlling sputtering time of TiO2 from 12 s to 600 s, various contact angles were obtained from 62° to 11°. Compared to 82° of the bare surface, wettability was improved for all sputtered surface, but CHF was not changed meaningfully. The CHF data had no meaningful relationship at all with the variation of contact angle, so we concluded that wettability cannot be a main parameter of CHF and its enhancement.

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An experimental study on CHF enhancement of wire nets covered surface in R-134a flow boiling under high pressure and high mass flux conditions

Song

Chang

2015

International Journal of Heat and Mass Transfer

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Sub Lee Song

CHF enhancement of SiC nanofluid in pool boiling experiment

Enhancement of nanofluid stability and critical heat flux in pool boiling with nanocellulose

Corrigendum to “Enhancement of critical heat flux using nano-fluids for Invessel Retention–External Vessel Cooling” [Appl. Therm. Eng. 35 (2012) 157–165]

Unaffectedness of improved wettability on critical heat flux enhancement with TiO2 sputtered surface

An experimental study on CHF enhancement of wire nets covered surface in R-134a flow boiling under high pressure and high mass flux conditions

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