Galamba N, Nieto de Castro C A, Ely J F
Departamento de Química e Bioquímica e Centro de Ciências Moleculares e Materiais, Faculdade de Ciências da Universidade de Lisboa, 1749-016 Lisboa, Portugal.
J Chem Phys. 2004 May 8;120(18):8676-82. doi: 10.1063/1.1691735.
The thermal conductivity of molten sodium chloride and potassium chloride has been computed through equilibrium molecular dynamics Green-Kubo simulations in the microcanonical ensemble (N,V,E). In order to access the temperature dependence of the thermal conductivity coefficient of these materials, the simulations were performed at five different state points. The form of the microscopic energy flux for ionic systems whose Coulombic interactions are calculated through the Ewald method is discussed in detail and an efficient formula is used by analogy with the methods used to evaluate the stress tensor in Coulombic systems. The results show that the Born-Mayer-Huggins-Tosi-Fumi potential predicts a weak negative temperature dependence for the thermal conductivity of NaCl and KCl. The simulation results are in agreement with part of the experimental data available in the literature with simulation values generally overpredicting the thermal conductivity by 10%-20%.
通过在微正则系综(N,V,E)中进行平衡分子动力学格林 - 库博模拟,计算了熔融氯化钠和氯化钾的热导率。为了研究这些材料的热导率系数对温度的依赖性,在五个不同的状态点进行了模拟。详细讨论了通过埃瓦尔德方法计算库仑相互作用的离子系统微观能量通量的形式,并类比用于评估库仑系统中应力张量的方法使用了一个有效公式。结果表明,玻恩 - 迈耶 - 哈金斯 - 托西 - 富米势预测氯化钠和氯化钾的热导率具有较弱的负温度依赖性。模拟结果与文献中部分可用的实验数据一致,模拟值通常比热导率实验值高估10% - 20%。