强制对流沸腾条件下微通道散热片的相变

Linan Jiang, M. Wong, Y. Zohar
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引用次数: 21

摘要

制备了一种由并联微通道、分布式温度微传感器和局部加热器组成的微通道散热系统,并对其进行了表征。采用体硅刻蚀法形成液压直径为40 /spl mu/m或80 /spl mu/m的v型槽。采用表面微加工技术制备了加热器和温度微传感器阵列。微通道是通过将玻璃晶片粘合到硅衬底上实现的,从而形成一个透明的覆盖层,用于流动可视化。在强制对流条件下,以去离子水为工质,研究了沸腾过程中的相变。在微通道散热器的沸腾曲线中没有观察到与潜热有关的沸腾平台。通过流动可视化来了解该体系的沸腾机理。根据输入功率的不同,观察到三种相变模式。在低功率下,微通道内发生局部成核沸腾。在中等水平时,大气泡在进口/出口区域形成,上游气泡被迫通过通道并离开系统。在较高的输入功率水平下,观察到稳定的环空流动模式,其中薄液体膜覆盖在每个通道壁上,直到系统干燥达到临界热流条件。
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Phase change in microchannel heat sink under forced convection boiling
A microchannel heat sink system, consisting of parallel microchannels, distributed temperature micro-sensors and a local heater, has been fabricated and characterized. V-grooves with hydraulic diameter of either 40 /spl mu/m or 80 /spl mu/m were formed by bulk silicon etching. The heater and temperature microsensor array were fabricated using surface micromachining. Microchannels were realized by bonding a glass wafer to the silicon substrate, resulting in a transparent cover for flow visualization. Phase change during the boiling process was studied under forced convection conditions, where DI water was used as the working fluid. No boiling plateau, associated with latent heat, has been observed in the boiling curves of microchannel heat sinks. Flow visualization was carried out to understand the boiling mechanism in such a system. Three phase-change modes were observed depending on the input power level. Local nucleation boiling within the microchannels occurred at low power level. At moderate levels, large bubbles developed at the inlet/outlet regions, and the upstream bubbles were forced through the channels and out of the system. At higher input power levels, a stable annular flow mode was observed, where a thin liquid film coated each channel wall until critical heat flux conditions developed with a dryout of the system.
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