Modeling and Optimization of the Bubble Detachment Diameter for a Pool Boiling System

Prediction of boiling heat transfer for pool boiling systems is crucial from the viewpoint of safe operation as well as in terms of logical use of energy. Here, five pool boiling processes for calculating the bubble detachment diameters are described. The effects of liquid density and vapor density on the bubble detachment diameter of these pool boiling systems, namely, ethanol, methanol, water, Na2SO4-water, and NaCl-water, are determined by applying response surface methodology. According to P-values and analysis of variance, there is a good agreement between the obtained regression models for the five pool boiling processes and experimental data for estimation of the bubble detachment diameters.

Automated summary

This study focuses on predicting boiling heat transfer in pool boiling systems, with a particular emphasis on bubble detachment diameters in different systems. By applying response surface methodology, the effects of liquid and vapor density on bubble detachment diameters were analyzed for ethanol, methanol, water, Na2SO4-water, and NaCl-water systems. The regression models obtained showed good agreement with experimental data for estimating bubble detachment diameters.