向下加热表面沸腾中气泡的吞噬行为

P. K. Verma, Arun Kumar Nayak
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摘要

与单相条件下的传热相比,冷却剂在热表面沸腾时通过吸收潜热和对流传热实现更好的冷却效果。在沸腾过程中,受热面的朝向也起着至关重要的作用。朝下的沸腾比朝上的沸腾复杂,因为加热器表面的朝向会抑制气泡的分离。因此,在这种沸腾条件下,气泡的停留时间和与其他气泡的相互作用也不同。我们在一个朝下的大平面(100 × 400 mm2)上进行的实验揭示了尚未探索的沸腾现象。沸腾过程由复杂的吞噬现象主导,这在过去很少见报道。吞噬现象是通过高速摄影捕捉到的,在低热通量时,可以观察到大气泡张开嘴吞噬小气泡。然而,在热通量较高时,这种现象就会消失。由于气泡被吞噬,形成了较大的蒸汽毯,这可能会导致偏离核沸腾。这种吞噬行为取决于热通量和过冷度。我们发现,随着热通量的增加,蒸汽吞噬的速率也会增加。我们试图根据毛细管压差来解释这种吞噬现象背后的科学原理。这些结果在不同的过冷度下是一致的。这项研究为成核沸腾提供了新的见解,有助于开发先进的数学模型,对向下成核沸腾进行准确的传热预测。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Engulfing behavior of vapor bubbles in downward facing heated surface boiling
Boiling of the coolant at the hot surface provides relatively better cooling by absorbing latent heat along with convection heat transfer as compared to heat transfer under single-phase conditions. In boiling, the orientation of heated surface also plays a crucial role. Downward facing boiling is complex than upward facing boiling, as the detachment of the bubble inhibited due to the heater surface orientation. Consequently, the bubble residence time and interaction with other bubbles are different in such boiling conditions. Our experiments on a large downward facing flat surface (100 × 400 mm2) revealed unexplored boiling phenomena. The boiling process is dominated by a complex engulfing phenomenon, which is rarely reported in the past. The engulfing phenomena have been captured using high-speed photography, wherein, at low heat fluxes, it is observed that larger bubbles engulf small bubbles by opening their mouth and swallowing the small bubbles. However, at higher heat fluxes, this phenomenon disappears. A larger vapor blanket is formed due to engulfing of bubbles, which may lead to departure from nucleate boiling. This engulfing behavior depends on the heat flux and subcooling. With the increase in heat flux, it is found that the rate of vapor engulfing increases. We have attempted to explain the science behind such engulfing phenomenon based on the capillary pressure difference. These results are consistent at various subcooling. This research provides new insights into nucleate boiling and may help in developing advanced mathematical models for accurate heat transfer prediction on downward facing nucleate boiling.
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