Heat transfer coefficient measurements in the thermal boundary layer of microchannel heat sinks

机译：微通道散热器热边界层中的传热系数测量

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This study describes the use of optical pump-probe diagnostics to characterize the heat transfer coefficient (HTC) in a developing thermal boundary layer in a microchannel. We use a differential form of the anisotropic time-domain thermoreflectance (TDTR) technique to measure the HTC as a function of fluid flow rate (or Reynolds number, Re). The testing environment/geometry consists of single-phase, degassed water flowing in a rectangular microchannel (hydraulic diameter Dh ≅ 480 μm) with local spot heating by the pump TDTR laser beam. Relative to the HTC measured with non-flowing (static) fluids, we find a 30% increase in the HTC for single-phase water flowing at Re ~ 1800.

机译：这项研究描述了使用光学泵浦探针诊断来表征微通道中正在发展的热边界层中的传热系数（HTC）。我们使用各向异性时域热反射（TDTR）技术的差分形式来测量HTC作为流体流速（或雷诺数，Re）的函数。测试环境/几何形状由在矩形微通道（液压直径Dh≅480μm）中流动的单相脱气水组成，并通过泵TDTR激光束局部加热。相对于使用非流动（静态）流体测得的HTC，我们发现Re〜1800处流动的单相水HTC增加了30％。

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《IEEE Intersociety Conference on Thermal and Thermomechanical Phenomena in Electronic Systems》|2016年|487-494|共8页
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Mehrdad Mehrvand; Shawn A. Putnam;
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time-domain reflectometry; boundary layers; heat sinks; heat transfer; hydraulic systems; microchannel flow; thermoreflectance;

机译：时域反射法;边界层;散热器;传热;液压系统;微通道流动;热反射;

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Heat transfer coefficient measurements in the thermal boundary layer of microchannel heat sinks

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