Numerical prediction of spatio-temporal frosting patterns of curved surface considering varying working parameters

Energy Storage and Saving Pub Date : 2023-03-01 DOI:10.1016/j.enss.2022.10.002

Xue Liu, Xiaojun Dong, Shaohang Yan, Yu Hou, Tianwei Lai

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引用次数: 0

Abstract

Accurate numerical prediction of frosting patterns is essential for the efficient layout and timing defrosting of heat exchangers under frosting conditions. In this study, a numerical model is developed to predict the spatio-temporal frosting habits on curved surfaces in combination with the correlations of frost density and thermal conductivity. In the model, frost melting is considered. After verification, the frosting and heat transfer characteristics along the flow path are investigated under various structural and operating conditions. Frost thickness along the path is mainly affected by the cooling surface temperature, while the heat and mass transfer rates are strongly correlated with the humidity ratio. The proportions of latent heat and sensible heat are distributed more unevenly in parallel flow case than in counter flow case. Frost deposition is facilitated by a smaller radius of curvature of the cooling surface. More uniform frosting characteristics along the path and smaller heat transfer obstruction are presented with a smaller length-to-height ratio of the flow path.

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考虑不同工作参数的曲面时空结霜模式的数值预测

结霜模式的精确数值预测对结霜条件下换热器的有效布置和及时除霜至关重要。在本研究中，结合霜密度和导热系数的相关性，建立了一个预测曲面结霜时空特征的数值模型。模型中考虑了霜的融化。验证后，研究了不同结构和运行条件下沿流道结霜和换热特性。路径霜厚主要受冷却表面温度的影响，而传热传质速率与湿度比密切相关。潜热和感热的比例在平行流情况下比逆流情况下分布更不均匀。冷却表面较小的曲率半径有利于结霜。流道长高比越小，沿程结霜特性越均匀，换热阻力越小。

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来源期刊

Energy Storage and Saving

CiteScore

4.70

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0.00%

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