纳米流体在铜泡沫中沸腾的实验研究

arXiv - PHYS - Fluid Dynamics Pub Date : 2024-09-16 DOI:arxiv-2409.09995

Kai-Xin Hu, Jing-Han Pan

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引用次数: 0

摘要

纳米流体是基础流体（如水、油或酒精）中的纳米级颗粒（如金属和螺螨酯）悬浮液，可显著提高基础流体的传热性能。然而，当纳米流体应用于热管时，纳米颗粒通常会在热管的毛细管芯内积聚，从而堵塞毛细管芯并增加热阻。本文通过实验方法研究了泡沫铜增强的水和纳米流体的沸腾现象。将液体注入放置在加热板上的泡沫铜中，在沸腾过程中，部分液体沿着泡沫铜受热面的边界被挤出。这种现象与重力无关，但与加热表面的亲水性或疏水性有关。根据这些特性，我们设计了一种将挤出的液体引导到其他位置的装置，为解决热管毛细管芯中纳米粒子的积聚问题提供了一种可行的解决方案。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Experimental Study on Boiling of Nanofluids in Copper Foam

Nanofluids are suspensions of nanoscale particles (such as metals and their oxides) in base fluids (such as water, oil, or alcohol), which can significantly enhance the heat transfer performance of the base fluid. However, when nanofluids are applied to heat pipes, it is common for nanoparticles to accumulate within the heat pipe's capillary wick, clogging it and increasing thermal resistance. This paper investigates the phenomenon of boiling of water and nanofluids enhanced by copper foam through experimental methods. When the liquid is injected into copper foam placed on a heating plate, some of the liquid is squeezed out along the boundary of the heated surface of the copper foam during boiling. This phenomenon is independent of gravity but related to the hydrophilicity or hydrophobicity of the heating surface. Based on these properties, we design a device to guide the squeezed-out liquid to other locations, offering a promising solution to the problem of nanoparticle accumulation in the heat pipe's capillary wick.

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arXiv - PHYS - Fluid Dynamics

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