A simple analytical expression is proposed in this article to calculate the vibrational contribution to the thermal conductivity of a polyatomic fluid. The analytic expression was obtained based on the assumption that the self-diffusion process is the major mechanism in the transport of vibrational energy. The proposed expression is validated by comparing the thermal conductivity of CO₂ calculated by molecular dynamics (MD) simulations to experimental data over a wide range of temperature and pressure. It is also demonstrated that the proposed analytic expression greatly increases the accuracy of calculated thermal conductivity for CO₂ at the supercritical state. © 2010 Taylor & Francis
The purpose of the work presented in this thesis has been to investigate thermal transport in pure p...
Thesis: B.S., Massachusetts Institute of Technology, Department of Chemical Engineering, 1967Bibliog...
We discuss recent advances in the microscopic simulations of thermal conductivity through the prism ...
An ab initio molecular potential model is employed in this paper to show its excellent predictabilit...
The work presented in this dissertation aims at ab initio calculations of the infrared absorption cr...
This article demonstrates a highly accurate molecular dynamics (MD) simulation of thermal conductivi...
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The vibrational contribution to the thermal transport properties of liquid Cu is investigated in det...
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In a combined experimental–theoretical study, we investigated the transport of vibrational energy fr...
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In solids and molecules, atoms vibrate about their respective equilibrium positions at finite temper...
International audienceThe length dependence of thermal conductivity over more than two orders of mag...
Heat transfer is ubiquitous in both naturally occurring and engineered materials. As technology prog...
The purpose of the work presented in this thesis has been to investigate thermal transport in pure p...
Thesis: B.S., Massachusetts Institute of Technology, Department of Chemical Engineering, 1967Bibliog...
We discuss recent advances in the microscopic simulations of thermal conductivity through the prism ...
An ab initio molecular potential model is employed in this paper to show its excellent predictabilit...
The work presented in this dissertation aims at ab initio calculations of the infrared absorption cr...
This article demonstrates a highly accurate molecular dynamics (MD) simulation of thermal conductivi...
Conductive stationary heat transfer through rarefied nonpolar polyatomic gases, confined between par...
The vibrational contribution to the thermal transport properties of liquid Cu is investigated in det...
The explanation of the thermal properties of Nano materials needs a lot of work. Different attempts ...
With significant recent advancements in thermal sciences—such as the development of new theoretical ...
In a combined experimental–theoretical study, we investigated the transport of vibrational energy fr...
We compute the thermal conductivity and diffusion coefficient of supercritical carbon dioxide along ...
In solids and molecules, atoms vibrate about their respective equilibrium positions at finite temper...
International audienceThe length dependence of thermal conductivity over more than two orders of mag...
Heat transfer is ubiquitous in both naturally occurring and engineered materials. As technology prog...
The purpose of the work presented in this thesis has been to investigate thermal transport in pure p...
Thesis: B.S., Massachusetts Institute of Technology, Department of Chemical Engineering, 1967Bibliog...
We discuss recent advances in the microscopic simulations of thermal conductivity through the prism ...