论文信息 - Thermal performance enhancement of grooved heat pipes with inner surface treatment

Thermal performance enhancement of grooved heat pipes with inner surface treatment

Abstract To explore the effect of inner surface treatments on the thermal performance of grooved heat pipes, a series of experiments were carried out in this work. The outer diameter and length of the grooved circular heat pipes used in these experiments were 6 and 190 mm. The wettability of the inner surface of grooved heat pipes were varied by chemical oxidation treatments. Since the contact angle was depending on wettability, the differentials in the contact angle among the evaporation, adiabatic and condensation sections were achieved by controlling the reaction time between the aqueous solution (1 mol/L NaOH and 0.1 mol/L (NH 4 )S 2 O 8 ) and the inner surface. The heat pipes were tested in horizontal orientation, and the results showed that proper treatment methods of the inner surface can effectively improve the thermal performance of the grooved heat pipes. More interestingly, it is demonstrated that the formation of the inner surface with a positive contact angle gradient (the values of contact angle become larger) along the evaporation, adiabatic and condensation sections enabled a decrease more than 12% in the thermal resistance and an increase more than 42% in the dry out limit of the heat pipes.

[1] Lorenzo Cremaschi,et al. Experimental measurements of the surface coating and water retention effects on frosting performance of microchannel heat exchangers for heat pump systems , 2012 .

[2] Shwin-Chung Wong,et al. Effect of copper surface wettability on the evaporation performance: Tests in a flat-plate heat pipe with visualization , 2011 .

[3] Laigui Yu,et al. Different wetting behavior of alkyl- and fluorocarbon-terminated films based on cupric hydroxide nanorod quasi-arrays , 2010 .

[4] Zhen-hua Liu,et al. Nucleate boiling on the superhydrophilic surface with a small water impingement jet , 2008 .

[5] Hongbin Ma,et al. THIN FILM EVAPORATION ON A CURVED SURFACE , 2004 .

[6] J. Passos,et al. Analysis of pool boiling within smooth and grooved tubes , 2000 .

[7] Qinmin Pan,et al. Fabrication of superhydrophobic surfaces on interconnected Cu(OH)2 nanowires via solution-immersion , 2007 .

[8] S. J. Kline,et al. Describing Uncertainties in Single-Sample Experiments , 1953 .

[9] J. Cotton,et al. The effect of orientation on U-shaped grooved and sintered wick heat pipes , 2010, 2010 12th IEEE Intersociety Conference on Thermal and Thermomechanical Phenomena in Electronic Systems.

[10] Hongbin Ma,et al. Theoretical analysis of the maximum heat transport in triangular grooves : A study of idealized micro heat pipes , 1996 .

[11] A. Solomon,et al. Thermal performance of a heat pipe with nanoparticles coated wick , 2012 .