Model of R134a liquid-vapor two-phase heat transfer coefficient for pulsating flow boiling in an evaporator using response surface methodology

Abstract

The present study proposes a model to predict the heat transfer coefficient in R134a liquid-vapor two-phase pulsating flow boiling in an evaporator using the experimental data and response surface methodology (RSM). The model is based on the current existing empirical correlation for R134a liquid-vapor two-phase continuous flow with an imposed modification factor. The model for the imposed modification factor is the function of the pulsating period and inlet/outlet vapor quality, which is obtained using the limited experimental data. An analysis of variance (ANOVA) is carried out to test the significance of the model and normal probability of residuals is analyzed as well. Results show that the regression model produces a mean error of -4.3% and a standard deviation of 15.4%, compared to experimental results. Of the data 95.1% is contained inside a -50% error window, which indicates that the proposed model could predict the heat transfer coefficient of R134a liquid-vapor two-phase pulsating flow boiling well.