Prof.Dr. SOMCHAI WONGWISES

Work Affiliations

Strategic Research Themes

Publications

  

  

  

21 of 24

  

  

  

• ● An experimental study on the heat transfer performance and pressure drop of TiO2-water nanofluids flowing under a turbulent flow regime; Duangthongsuk W., Wongwises S.; 2010; Journal article
• ● An investigation of a model of the flow pattern transition mechanism in relation to the identification of annular flow of R134a in a vertical tube using various void fraction models and flow regime maps; Dalkilic A.S., Wongwises S.; 2010; Journal article
• ● A numerical investigation of nanofluids forced convection flow in a horizontal smooth tube; Demir H., Dalkiliç A.S., Kürekci N.A., et al.; 2010; Conference proceedings article
• ● A performance comparison of vapour-compression refrigeration system using various alternative refrigerants; Dalkilic A.S., Wongwises S.; 2010; Journal article
• ● Boiling of Nanofluids; Wongwises, S.;Suriyawong, A.; 2010; Journal article
• ● Comparison of frictional pressure drop models during annular flow condensation of R600a in a horizontal tube at low mass flux and of R134a in a vertical tube at high mass flux; Dalkilic A.S., Agra O., Teke I., et al.; 2010; Journal article
• ● Comparison of the effects of measured and computed thermophysical properties of nanofluids on heat transfer performance; Duangthongsuk W., Wongwises S.; 2010; Journal article
• ● Correlations for wet surface ratio of fin-and-tube heat exchangers; Pirompugd W., Wang C.-C., Wongwises S.; 2010; Journal article
• ● Determination of condensation heat transfer characteristics of R134a by means of artificial intellgence method; Balcilar M., Dalkili็ A.S., Wongwises S.; 2010; Conference proceedings article
• ● Effects of coil diameter and pitch on the flow characteristics of alternative refrigerants flowing through adiabatic helical capillary tubes; Chingulpitak S., Wongwises S.; 2010; Journal article
• ● Enhancement of heat transfer using nanofluids-An overview; Godson L., Raja B., Mohan Lal D., et al.; 2010; Journal article
• ● Experimental investigation on the thermal conductivity and viscosity of silver-deionized water nanofluid; Godson L., Raja B., Lal D.M., et al.; 2010; Journal article
• ● Experimental research on the similarity of annular flow models and correlations for the condensation of R134a at high mass flux inside vertical and horizontal tubes; Dalkilic A.S., Laohalertdecha S., Wongwises S.; 2010; Conference proceedings article
• ● Experimental study on the flow regime identification in the case of co-current condensation of R134a in a vertical smooth tube; Dalkilic A.S., Wongwises S.; 2010; Conference proceedings article
• ● Flow boiling heat transfer characteristics of R-134a in horizontal and vertical mini-channels; Saisorn S., Kaew-On J., Wongwises S.; 2010; Conference proceedings article
• ● Flow mechanisms of HFC-410A inside short-tube orifices during flashing process; Nilpueng K., Wongwises S.; 2010; Journal article
• ● Flow pattern and heat transfer characteristics of R-134a refrigerant during flow boiling in a horizontal circular mini-channel; Saisorn S., Kaew-On J., Wongwises S.; 2010; Journal article
• ● Investigation on the jet liquid impingement heat transfer for the central processing unit of personal computers; Naphon P., Wongwises S.; 2010; Journal article
• ● Measurement of thermo physical properties of metallic nanofluids for high temperature applications; Godson L., Lal D.M., Wongwises S.; 2010; Journal article
• ● New experimental approach on the determination of condensation heat transfer coefficient using frictional pressure drop and void fraction models in a vertical tube; Dalkilic A.S., Wongwises S.; 2010; Journal article

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