Nanofluid natural convection around a cylinder by BEM

Abstract

In thispaperwe focusonthe determinationofvorticityboundaryconditionsforthe solution of Navier‐Stokes equations in velocity-vorticity form. Boundary element method is used to calculate the vorticity boundary conditions on an arbitrary curved surface. The method is used in an in-house fluid and heat transfer solver. Results of simulations of flow and heat transfer of nanofluids are presented. We consider a heated elliptical cylinder in a cooled cubic enclosure where natural convection develops. Steady laminar regime is considered with Rayleigh number values up to a million. Al2O3 nanofluid is considered, as well as pure water for validation purposes. Properties of the nanofluid are considered to be constant throughout the domain and are estimated using models for different nanoparticle volume fractions (0.1 and 0.2). Theresultsshowhighestheattransferenhancementin theconductiondominated flow regime, where the enhanced thermal properties of nanofluids play an important role. When convection is the dominant heat transfer mechanism, using nanofluids yields a smaller increase in heat transfer efficiency.