Tengqing Liu, Xuehao He, Yaokang Zhang, Shuangfeng Wang
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引用次数: 0
Abstract
For cooling the electronics in limited space, this study proposes UTFHP with two working modes, i.e., short UTFHP with single-end heating and single-end cooling (SHSC) and long UTFHP with middle heating and dual-end cooling (MHDC). The effects of input head load and cooling temperature on the thermal performance of the short UTFHP with SHSC and long UTFHP with MHDC have been studied for the performance comparison. The input head load ranges from 0-38 W and the cooling temperature ranges from 15 ℃ to 65 ℃. The results show that the two layers wrapped 200 in-1 screen mesh can provide adequate capillary pressure, hence, both of the two UTFHP working modes show good temperature uniformity. The short UTFHP with SHSC shows better thermal performance compared to the performance of long UTFHP with MHDC. In addition, the thermal resistances of both UTFHPs decrease with the increase of the input heat load and the decrease of the cooling temperature under the ranges of operating conditions.
期刊介绍:
Heat Transfer Research (ISSN1064-2285) presents archived theoretical, applied, and experimental papers selected globally. Selected papers from technical conference proceedings and academic laboratory reports are also published. Papers are selected and reviewed by a group of expert associate editors, guided by a distinguished advisory board, and represent the best of current work in the field. Heat Transfer Research is published under an exclusive license to Begell House, Inc., in full compliance with the International Copyright Convention. Subjects covered in Heat Transfer Research encompass the entire field of heat transfer and relevant areas of fluid dynamics, including conduction, convection and radiation, phase change phenomena including boiling and solidification, heat exchanger design and testing, heat transfer in nuclear reactors, mass transfer, geothermal heat recovery, multi-scale heat transfer, heat and mass transfer in alternative energy systems, and thermophysical properties of materials.
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