Single-phase convection and boiling heat transfer: Confined single and array-circular impinging jets |
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Authors: | Seong-Je Wu Chang Hwan Shin Kyung Min Kim Hyung Hee Cho |
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Institution: | Department of Mechanical Engineering, Yonsei University, Seoul 120-749, Republic of Korea |
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Abstract: | In the present study, the effects of diverse situations of confinement on heat transfer from single and array-circular jet impingements are carefully investigated over various heat transfer regimes of single-phase convection and fully developed nucleate boiling. For the single, circular, unconfined free-surface jet, the transition to turbulence was observed to start around x/d = 5.5 and end around x/d = 9. For the array-circular jet, however, the wall jet structure yielded no transition to turbulence for all the tested cases, instead monotonically decreasing the convection coefficient. Conversely, the single-circular jet experienced the transition for V ? 6.1 m/s. For the confined submerged jet, the transition length was very short due to the vigorous mixing driven by lateral velocity components, and the locus of the secondary peak moved downstream as velocity increased. The temperature distributions of the confined array-circular jet were fairly uniform over the whole heated surface. The averaged single-phase convection coefficients indicated that the confined jet provided the most uniform convection in the lateral direction. |
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Keywords: | Convective boiling Heat transfer Impinging jet Liquid jet Two-phase flow |
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