کد مقاله | کد نشریه | سال انتشار | مقاله انگلیسی | نسخه تمام متن |
---|---|---|---|---|
153000 | 456516 | 2010 | 7 صفحه PDF | دانلود رایگان |
Effects of surface free energy and nanostructures on dropwise condensation (DWC) were investigated experimentally. The oxidation and etching methods were applied to prepare the nanostructures on the copper substrates. Self-assembled monolayers coatings of n-octadecyl mercaptan were prepared on mirror-polished (SAM-2) and the nanostructured (SAM-1) copper substrates to promote the DWC. Experimental data presented that the nanostructure surface SAM-1 did not improve the dropwise condensation heat-transfer performance so much as to be expected for increasing the possible condensing surface area, compared to the mirror-polished SAM-2. This may be caused from the nanostructure's retardance to the condensate film. However, the incorporating effects of surface free energy and nanostructures of the condensing surface were found to play a really important role in the condensation heat-transfer enhancement. The fractal-like structures and the voids on SAM-1 surface were filled with condensate in the condensing process which resulted in a composite condensing surface of condensate and copper regions. Thus the average surface free energy of this composite condensing surface is larger than that of SAM-2 surface. The surface free energy difference between the condensate and the condensing surface of SAM-1 is less than that of SAM-2, so are the heat-transfer coefficients. The condensation heat-transfer is enhanced by a factor of 3 for SAM-2 surface, due to an increase of surface free energy difference between the condensate and condensing surface.
Journal: Chemical Engineering Journal - Volume 156, Issue 3, 1 February 2010, Pages 546–552