Prediction of Thermal Conductivity of Fruit Juices by a Thermal Resistance Model

A cellular tissue is an heterogeneous, porous, chaotic medium which can be represented by a subdivision of a 2-D domain into irregular, convex polygons, known as a Voronoi tessellation, on which some polygons are randomly defined as cells and the remainder as pores. The model is used to predict the

In this work thermal conductivity of the suspension is modeled using resistance model approach. This model considers Brownian motion and interfacial layer as well as a new mechanism where proposed by considering nanoparticles as liquid-like particles. The model can be used for estimation of upper an

The thermal conductivity of non-metallic nano-and microstructured materials is a key parameter when considering wear resistant coatings. Here, different models of phonon transport and estimation of thermal conductivity are analyzed. The hopping mechanism of phonon transport was found to be applicabl