Simulation of Flow and Heat Transfer of Nanofluid in an Eccentric Annulus with Multicomponent Lattice Boltzmann Method

The present study has applied lattice Boltzmann method to simulate numerically two-dimensional laminar flow and heat transfer over a rotating circular cylinder

Natural convection heat transfer in a two dimensional unsteady rotating differentially heated enclosure is studied numerically in this paper.. The enclosure is filled with air

Micropolar fluid flow and heat transfer in a permeable channel using analytical method, Journal of

Abstract - In this paper, the mixed convection steady boundary layer stagnation point flow and heat transfer of a third grade fluid over an exponentially stretching sheet

This cell is more intense compared to the case of the injection mode (Fig. The corresponding isotherms are more tightened at the level of the heated vertical wall indicating a

The above literature review revealed that no study has yet to be conducted on heat transfer in mixed convection flow of ferrofluid inside a vertical channel in the presence of

The images of these samples were observed for the transverse and inplane permeability, porosity, specific surface area, and tortuosity by using image analysis techniques [7],

By investigating Nusselt number and fric- tion factor, it is observed that increase in nanoparticle volume fractions causes nanofluid heat transfer properties to have a higher