期刊
INTERNATIONAL JOURNAL OF HEAT AND MASS TRANSFER
卷 122, 期 -, 页码 515-528出版社
PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.ijheatmasstransfer.2018.02.003
关键词
Oscillating heat pipe; Chip level; Electronics cooling; Start-up behavior; Bubble nucleation; Two-phase oscillation
资金
- National Natural Science Foundation of China [51576091]
The startup characteristics of micro oscillating heat pipe (micro-OHP) have been experimentally investigated using a high-speed CCD camera in conjunction with the temperature measurement. The micro-OHP was fabricated on a silicon wafer by the MEMS technology, having trapezoidal channels with a hydraulic diameter of 357 pm. HFE-7100 was used as the working fluid with volumetric filling ratios ranging from 31% to 72%. The effects of filling ratio and heating power input on the start-up process were presented. Two different start-up behaviors, so-called start-up with and without bubble nucleation (STWBN/STWOBN), subject to different heat input levels were observed, and the underlying mechanisms were elaborately analyzed. The occurrence of STWBN or STWOBN depends mostly upon the spatial distribution of slugs/plugs in the micro-OHP. For the STWOBN mode, the fluid movement could be triggered by intense liquid film evaporation without nucleation with evaporator temperature less than 80 degrees C. However, the STWBN mode is sometimes indispensable to excite the two-phase oscillations in the micro-OHP due to the non -desirable slug/plug distribution, leading to much higher evaporator temperatures even greater than 140 degrees C to initiate the bubble generation. To predict the startup temperature at the STWBN mode, a theoretical model to describe the wall superheat required for incipient bubble nucleation in microchannels was propounded and largely agreed with the present experimental data. Micro-OHPs worked at the STWBN mode may greatly hinder their applications in electronics cooling, and artificial cavities fabricated or embedded on silicon channel wall surfaces are proposed to facilitate bubble nucleation and then the startup at low temperatures. (C) 2018 Elsevier Ltd. All rights reserved.
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