Estimating correlations for the effective thermal conductivity of granular materials

## Abstract Heat transfer plays a major role in the processing of many particulate materials. The heat flux vector is commonly modelled by the Fourier's law of heat conduction and for complex materials such as non‐linear fluids, porous media, or granular materials, the coefficient of thermal conduc

This study uses a two-dimensional discrete-element simulation to determine the effective thermal conductivity and self-diffusivity-uantities that depend on the random motions of particles within a granular material flow. The simulations are performed for solid fractions from 0.015 to 0.68 and for di

A numerical scheme, based on a physical approach of the conduction phenomena, is proposed for the determination of the effective thermal conductivity of a two-components heterogeneous material. A medium made up of a regular assembly of cylinders is considered and the results appear to be consistent

Three thermal transport mechanisms of various filling materials for Vacuum Insulation Panels (VIPs) are theoretically investigated with special emphasis on the solid conduction. As the first, the solid conductivities of porous materials such as powder, foam, fiber and staggered beam subject to exter