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Complete heat transfer solutions of an insulated regular cubic tank with an SSWT model

机译:使用SSWT模型的隔热常规立方罐的完整传热解决方案

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The heat transfer characteristics for an insulated cubic tank are analyzed by using the same SSWT model in the present study as that used by Chou and Wong previously. The thermal resistance of the inner convection term and the wall conduction term in the heat transfer rate are not neglected in the present study. Thus, the complete heat transfer solution will be obtained. The present results can be applied more extensively to practical situations, such as an insulated gas tank. The results of the critical thickness t_(cr) and the neutral thickness t_e are independent of the values of J (generated by the effect of the inner convection term and the wall conduction term). However, the heat transfer rates are dependent on the values of J. The present study shows that the thermal resistance of the inner convection term and the wall conduction term cannot be neglected in heat transfer equations in situations of low to medium inner convection coefficients, h_i, and/or low to medium wall conductivities, K, especially in situations with small body sizes.
机译:在本研究中,使用与Chou和Wong先前使用的SSWT模型相同的SSWT模型分析了隔热立方罐的传热特性。在本研究中,内部对流项和壁传导项在传热速率中的热阻没有被忽略。因此,将获得完整的传热解决方案。本结果可以更广泛地应用于实际情况,例如绝缘储气罐。临界厚度t_(cr)和中性厚度t_e的结果与J的值无关(由内部对流项和壁传导项的影响生成)。但是,传热速率取决于J的值。本研究表明,在低至中等内部对流系数h_i的情况下,内部对流项和壁传导项的热阻在热传递方程中不能忽略不计,和/或低至中等的壁电导率K,尤其是在小体积的情况下。

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