Experiments are performed, which investigated the enhancement in saturation boiling of HFE-7100 dielectric liquid on copper surfaces having a footprint of 10 × 10 mm and four 3 × 3 mm corner pins that are 2, 3 and 5 mm tall. These pins increase the geometrical surface area, by 96%, 144%, and 240%, respectively, and the surfaces are prepared using #400 and #1500 emery papers to investigate the effect of roughness on boiling heat transfer. Still photographs and video footage are recorded of the boiling processes. Nucleate boiling starts at a few isolated sites on the inside of the pins, close to the common line with the base surface, markedly reducing or eliminating the temperature excursion prior to boiling incipience. Measurable enhancements are obtained in both natural convection and nucleate boiling heat transfer. On the plane Cu surfaces prepared with emery paper #1500, the maximum nucleate boiling heat transfer coefficient, based on the foot print area, h_B~*, is 1.16 W/cm~2.K and increases to 1.80, 2.03 and 2.37 W/cm~2.K on the surfaces with 2, 3, and 5 mm tall pins. Similarly, the Critical Heat Flux (CHF), based on the foot print area, increases linearly with increased pin height, at a rate of ~ 32% per mm. Increased surface roughness increases both h_B~* and CHF by additional 15% and 10% and markedly enhances nucleate boiling heat transfer at high surface superheats (ΔT_(Bat) > ~10 K), but causes only little enhancement at lower superheats.
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机译:进行了实验,研究了HFE-7100电介质液体在占地10×10 mm的铜表面和四个3×3 mm角销(分别为2、3和5 mm高)上的饱和沸腾的增强。这些销钉分别增加了96%,144%和240%的几何表面积,并使用#400和#1500砂纸制备了表面,以研究粗糙度对沸腾传热的影响。静止照片和录像记录了煮沸过程。核沸腾始于销钉内部的几个孤立位置,靠近与底面的共同线,从而显着降低或消除了沸腾开始之前的温度波动。自然对流和成核沸腾传热均获得了可测量的增强。在用#1500砂纸制备的平面Cu表面上,基于足迹面积h_B〜*的最大成核沸腾传热系数为1.16 W / cm〜2.K,并增加到1.80、2.03和2.37 W /带有2、3和5毫米高的销钉的表面上的cm〜2.K。同样,基于占地面积的临界热通量(CHF)随着引脚高度的增加而线性增加,增长率为每mm约32%。增加的表面粗糙度使h_B〜*和CHF分别增加15%和10%,并在高表面过热度(ΔT_(Bat)>〜10 K)下显着增强了核沸腾传热,而在较低过热度下仅引起很小的增强。
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