新型蒸汽室的性能测试

K. Hsieh, S. Wong
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引用次数: 62

摘要

本文对一种新型蒸汽室进行了性能测试。在该蒸汽室中,在顶板的内表面上制作平行凹槽,凹槽间有开口,以取代传统的多孔灯芯。在底板的内表面烧结一层多孔灯芯作为蒸发器。槽壁的峰值与芯直接接触,使槽同时起蒸汽通道、冷凝器和结构支撑的作用。波纹槽壁不仅提供了一个扩大的冷凝面积,而且还提供了一个直接的捷径,使在槽表面冷凝的一部分液体被吸收回芯。因此,液体流动阻力较小,因此具有较高的抗干性。测试模块包括一个铜板翅散热器和一个顶部风扇。在本研究中,蒸发器芯芯由烧结多层铜网制成,蒸汽室占地面积为10 cm × 8.9 cm。在2.1 cm × 2.1 cm或1.1 cm × 1.1 cm的加热区域,测量了热负荷从80w增加到300w以上时的蒸汽室阻力。在不同取向下均获得了较低的气室阻力和较大的热负荷极限。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Performance tests on a novel vapor chamber
The performance of a novel vapor chamber is tested in this study. In this vapor chamber, parallel grooves are made on the inner surface of the top plate, with inter-groove openings, to replace the conventional porous wick. To the inner surface of the bottom plate is sintered a layer of porous wick as the evaporator. The peaks of the groove walls directly contact with the wick so that the grooves function as vapor path, condenser and structural supporters simultaneously. The corrugated groove walls provide not only an enlarged condensation area, but also a direct shortcut for a portion of the liquid condensed on the groove surface to be absorbed back to the wick. Thus, smaller liquid-flow resistance and hence high anti-dryout capability are achieved. The test module includes a copper plate-fin heat sink in combination with a top fan. In this study, the evaporator wick was made of sintered multi-layer copper screens and the footprint of the vapor chamber was 10 cm × 8.9 cm. With a 2.1 cm × 2.1 cm or a 1.1 cm × 1.1 cm heating area, the vapor chamber resistances were measured for heat load increasing from 80 W to beyond 300 W. Good performances with low vapor chamber resistance and large heat load limit were obtained under different orientations.
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