Thermal characterization of two-phase heat transfer in porous materials: an experimentally confirmed method in non-dimensionalized form

机译：多孔材料两相热传递的热表征：非尺寸形式的实验证实方法

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Investigations of a relatively new heat transfer scheme, were conducted. This system combines two-phase heat transfer with forced flow through porous materials and has the ability to absorb high heat fluxes at low and extremely uniform surfacetemperatures. To predict the heat transfer attributes of the system, a semi-analytical model was developed using the conservation equations of mass, momentum and energy along with the apparent physical properties of the composite material. Verification of the analytical model is demonstrated through experimental confirmation. The resulting model predicts the liquid vapor interface and surface temperature profile for a channel to which a constant heat flux is applied to within ±5 % of the channel width and ±0.1°C. In addition, a non-dimensionalized method for predicting the heat transfer attributes of these systems was developed.

机译：进行了相对新的传热方案的研究。该系统将两相热传递与强制流过多孔材料相结合，并且能够在低且极其均匀的表面上吸收高热助熔剂。为了预测系统的传热属性，使用质量，动量和能量的节约方程以及复合材料的表观物理性质开发半分析模型。通过实验证实证明了分析模型的验证。所得到的模型预测恒定热通量施加到通道宽度的±5％和±0.1°C的通道的液体蒸汽接口和表面温度分布。另外，开发了一种用于预测这些系统的传热属性的非维度方法。

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《ASME International Mechanical Engineering Congress and Exposition》|1997年||共10页
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J. T. Dickey; G. P. Peterson;
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Thermal characterization of two-phase heat transfer in porous materials: an experimentally confirmed method in non-dimensionalized form

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