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Hoheum Cho,Daisuke Jige,Hiromasa Miyata,NORIHIRO INOUE 대한설비공학회 2018 International Journal Of Air-Conditioning and Refr Vol.26 No.1
This study experimentally investigated the flow pattern, void fraction, and evaporation heat transfer characteristic of R134a upward flow in a vertical narrow rectangular channel having a hydraulic diameter of 0.99 mm, resembling a plate heat exchanger. Experiments were performed with mass velocities and vapor quality ranging between 30–200 kgm −2 −2s −1 −1 and 0.05–0.9, respectively, at a saturation temperature of 15 ∘C. Flow patterns were classified into bubble, slug, churn, and annular flows. The void fraction increased with increasing quality, and decreased with decreasing mass velocity in the low-quality region. Further, the influence of flow inlet/outlet positions remarkably appeared when the superficial gas velocity was low. The observed flow patterns and the measured void fraction were compared to that in previous studies. The effects of mass velocity and heat flux on the evaporation heat transfer coefficient were small, and the heat transfer through the thin liquid film was dominant.