This article demonstrates a highly accurate molecular dynamics (MD) simulation of thermal conductivity of methane using an ab initio intermolecular potential. The quantum effects of the vibrational contribution to thermal conductivity are more efficiently accounted for in the present MD model by an analytical correction term as compared to by the Monte Carlo method. The average deviations between the calculated thermal conductivity and the experimental data are 0.92% for dilute methane and 1.29% for methane at moderate densities, as compared to approximately 20% or more in existing MD calculations. The results demonstrate the importance of considering vibrational contribution to the thermal conductivity which is mainly through the self-diff...
We use a mesodynamical method, denoted dynamics with implicit degrees of freedom DID, to characteriz...
submitted to Journal of Heat TransferThe thermal conductivity of nanometric objects or nanostructure...
International audience: The thermal conductivity of a model for solid argon is investigated using no...
Nonequilibrium molecular dynamics simulations with the nonpolarizable SPC/E (Berendsen et al., J. Ph...
Nonequilibrium molecular dynamics simulations with the nonpolarizable SPC/E (Berendsen et al., J. Ph...
An ab initio molecular potential model is employed in this paper to show its excellent predictabilit...
Using molecular dynamics simulations we determine the composition dependence of the self-diffusivity...
Using molecular dynamics (MD) simulations, we determine the composition dependence of the self-diffu...
A simple analytical expression is proposed in this article to calculate the vibrational contribution...
The thermal conductivity of methane hydrate is an important physical parameter affecting the process...
Thermodynamic and diffusion properties of water + methane mixtures in a single liquid phase are stud...
The work presented in this dissertation aims at ab initio calculations of the infrared absorption cr...
Transport properties of pure methane have been calculated in the rigid-rotor approximation using the...
We present molecular dynamics simulation results for the diffusion coefficients and structure of wat...
Thermal conductivity is an important property of polymer nano-composite materials. Both materials wi...
We use a mesodynamical method, denoted dynamics with implicit degrees of freedom DID, to characteriz...
submitted to Journal of Heat TransferThe thermal conductivity of nanometric objects or nanostructure...
International audience: The thermal conductivity of a model for solid argon is investigated using no...
Nonequilibrium molecular dynamics simulations with the nonpolarizable SPC/E (Berendsen et al., J. Ph...
Nonequilibrium molecular dynamics simulations with the nonpolarizable SPC/E (Berendsen et al., J. Ph...
An ab initio molecular potential model is employed in this paper to show its excellent predictabilit...
Using molecular dynamics simulations we determine the composition dependence of the self-diffusivity...
Using molecular dynamics (MD) simulations, we determine the composition dependence of the self-diffu...
A simple analytical expression is proposed in this article to calculate the vibrational contribution...
The thermal conductivity of methane hydrate is an important physical parameter affecting the process...
Thermodynamic and diffusion properties of water + methane mixtures in a single liquid phase are stud...
The work presented in this dissertation aims at ab initio calculations of the infrared absorption cr...
Transport properties of pure methane have been calculated in the rigid-rotor approximation using the...
We present molecular dynamics simulation results for the diffusion coefficients and structure of wat...
Thermal conductivity is an important property of polymer nano-composite materials. Both materials wi...
We use a mesodynamical method, denoted dynamics with implicit degrees of freedom DID, to characteriz...
submitted to Journal of Heat TransferThe thermal conductivity of nanometric objects or nanostructure...
International audience: The thermal conductivity of a model for solid argon is investigated using no...