Abstract
ABSTRACT Pool boiling is the process in which the heating surface is submerged in a large body of stagnant liquid. In the present work, heat transfer in nucleate pool boiling is modeled both experimentally and semi-analytically with the consideration of surface structuring methods including wire electrical discharge machining (WEDM) and etching. The developed models consider variations of nucleation site density (NSD), contact angle and Prandtl number taking into account both pure and impure fluids. According to the results, by increasing wall superheat and contact angle, heat flux enhances. Also, rising Prandtl number results in heat flux enhancement. Comparing Sample 2 (structured by etching method), Sample 3 (structured by WEDM method), and Sample 4 (the surface with best performance) with Sample 1 (plain surface) indicates that the HTC is approximately 37%, 121%, and 177% higher than the plain surface, respectively. Comparison of the obtained results based on the semi-analytical model with existing experimental data and previous analytical models shows a good agreement.
Published Version
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