E. Benachour, B. Draoui, B. Imine, Khadidja Asnoune
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引用次数: 0
摘要
模拟可以深入了解决定材料性能的量子力学和热传递效应,因此,计算材料设计传统上用于改进和进一步开发现有材料。特别是当涉及到建筑材料内部的热传递时,因为它直接影响到热舒适的质量。在这项工作中,传导对流耦合通过这种材料的演变,这种材料代表了墙体的原材料。此外,本文还开发了一种新的控制器平均努塞尔数的相关性,该相关性可以在概念壁之前给出预测,并使用牛顿多项式插值方法和平均瑞利数等于1 - e -4的材料优化。
The Modern Approach for Materials Construction Design
The simulation grant a deep insight into the quantum mechanical and thermal heat transfer effects which determine material properties, and therefore, computational materials design is traditionally used to improve and further develop already existing materials. Especially when it comes to thermal transfer within building materials because it directly affects the quality thermal comfort. In this work the evolution of conduction convection coupling through this material which represents the raw material of the construction of the walls. Also, in this paper we have developed a new correlation for Controller the average Nusselt number which gives us a prediction before conception walls and with Newton polynomial interpolation method and the material optimization for a average Rayleigh number equal to 1.E-4.
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