STP1567

    Nucleate Pool Boiling Heat Transfer Correlation for TiO2-Water Nanofluids

    Published: Aug 2012


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    Abstract

    This paper is a continuation of the authors' previous work on the nucleate pool boiling heat transfer of nanofluids [Suriyawong, A. and Wongwises, S., “Nucleate pool boiling heat transfer characteristics of TiO2-water nanofluids at very low concentrations,” Exp. Therm. Fluid Sci., Vol. 34, No. 8, 2010, pp. 992–999.] This study presents new correlation for predicting heat transfer coefficient for nucleate pool boiling of TiO2-water nanofluids at several low concentrations. Unlike most previous studies, the proposed correlation consists of various relevant factors. Two horizontal circular plates made from copper and aluminum with different surface roughness values are used as heating surfaces. Because the calculation concerns with properties of nanofluids, this research uses various correlations from previous studies to find the properties of nanofluids and the best one is selected for the presentation. Compared with measured data of nucleate pool boiling of water and nanofluids from present and previous studies, it was found that the developed correlation could be used for prediction at a certain level.

    Keywords:

    nucleate boiling, nanofluids, nanoparticles, heat transfer, heat flux


    Author Information:

    Suriyawong, A.
    Fluid Mechanics, Thermal Engineering and Multiphase Flow Research Laboratory (FUTURE), Dept. of Mechanical Engineering, King Mongkut's Univ. of Technology Thonburi, Bangmod, Bangkok,

    Dalkilic, A. S.
    Heat and Thermodynamics Division, Dept. of Mechanical Engineering, Yildiz Technical Univ., Yildiz, Besiktas, Istanbul

    Wongwises, S.
    Fluid Mechanics, Thermal Engineering and Multiphase Flow Research Laboratory (FUTURE), Dept. of Mechanical Engineering, King Mongkut's Univ. of Technology Thonburi, Bangmod, Bangkok,

    The Academy of Science, The Royal Institute of Thailand, Bangkok,


    Paper ID: STP156720120011

    Committee/Subcommittee: D02.06

    DOI: 10.1520/STP156720120011


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