Nucleate boiling on ultra-smooth surfaces: Explosive incipience and homogeneous density of nucleation sites - Archive ouverte HAL
Article Dans Une Revue Experimental Thermal and Fluid Science Année : 2017

Nucleate boiling on ultra-smooth surfaces: Explosive incipience and homogeneous density of nucleation sites

Résumé

Pool boiling heat transfer characteristics in saturation conditions are investigated on rough and ultra-smooth surfaces of several aluminum samples, acetone being the working fluid. The topography of the surfaces is analyzed with a confocal microscope: the samples are methodically scanned in order to record the height or the depth of each point of the surface with respect to its mean altitude. This analysis enables to characterize both the mean roughness of the sample but also the presence of significant imperfections due to the polishing process. Depending on the characteristics of the surfaces, different types of boiling incipience - from gradual to explosive - are observed using a high speed camera. When the heat flux is gradually decreased following boiling incipience on an ultra-smooth surface, nucleate boiling subsists for very small heat fluxes, leading to a homogeneous distribution of very small bubbles on the entire surface. On the contrary, in the same conditions, rough surfaces or ultra-smooth surfaces with imperfections are not able to sustain nucleation: for decreasing heat fluxes, a decreasing number of dispersed nucleation sites producing large bubbles is observed, before the full extinction of the boiling process for a heat flux much higher than with the ultra-smooth surface. For increasing heat fluxes, the results show that ultra-smooth surfaces with a small number of imperfections deliver the best thermal performance.
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Dates et versions

hal-02042606 , version 1 (20-02-2019)

Identifiants

Citer

Mostafa Al Masri, Serge Cioulachtjian, Colette Veillas, Isabelle Verrier, Yves Jourlin, et al.. Nucleate boiling on ultra-smooth surfaces: Explosive incipience and homogeneous density of nucleation sites. Experimental Thermal and Fluid Science, 2017, 88, pp.24-36. ⟨10.1016/j.expthermflusci.2017.05.008⟩. ⟨hal-02042606⟩
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