Experimental Investigation and Modeling of Bubble Departure Frequency for Nucleate Pool Boiling Heat Transfer of Pure Liquids on Flat Heater

• Published in: International journal of advanced design and manufacturing technology Vol. 15; no. 4; pp. 71 - 83
• Main Authors: Samane Hamzekhani, Farhad Shahraki, Davood Mohebi- kalhori, Mohammad Reza Fardinpour
• Format: Journal Article
• Language: English
• Published: Islamic Azad University-Isfahan (Khorasgan) Branch 01.12.2022
• Subjects: bubbles departure frequency; pool boiling; pure liquid; response surface methodology
• ISSN: 2252-0406; 2383-4447
• DOI: 10.30486/admt.2023.1960198.1354

In the present study, the response surface methodology is used to predict the bubble departure frequency of pure liquids using experimental data. Water, ethanol and methanol pure liquids were used as the testing fluid. The effects of vapor and liquid density difference, vapor and liquid viscosity, surface tension, thermal conductivity, heat flux on the vapor bubbles departure frequency on the heat transfer of boiling pool of pure liquids were investigated by response surface methodology. The results showed that the output of the Response surface methodology had a good overlap with the data of bubbles departure frequency of pure liquids. Also, the results for the bubble departure frequency show a good overlap between the models presented by the researchers and the experimental data and have good accuracy. In this research, a new model for the prediction of vapor bubble departure frequency, based on the Buckingham theory, in nucleate boiling is proposed, which predicts the experimental data with a satisfactory accuracy (9%).