Enhanced heat transfer and symmetry breaking in three-dimensional electro-thermo-hydrodynamic convection

Abstract: In this work, the electro-thermo-hydrodynamic convection system induced by unipolar charge injection between two parallel electrodes is numerically investigated. A two-relaxation-time lattice Boltzmann method coupled with a fast Poisson solver is implemented to obtain the temporal and spatial distributions of the flow field, temperature field, electric field, and charge density of the system. Due to the electric force and destabilizing buoyancy force, the system exhibits electro-thermo-convective vortices and … Show more

“…Indeed, when the electric field value is strong enough, the convective transfer (Nusselt number) becomes completely independent of the thermal gradient. Recently, Wang et al [9] conducted a numerical investigation into the electro-thermo-hydrodynamic convection system induced by an electric field. Their findings reveal the temporal and spatial distributions of the flow field, temperature field, electric field, and charge density within the system.…”

Effect of an Adiabatic Obstacle on the Symmetry of the Temperature, Flow, and Electric Charge Fields during Electrohydrodynamic Natural Convection

“…Indeed, when the electric field value is strong enough, the convective transfer (Nusselt number) becomes completely independent of the thermal gradient. Recently, Wang et al [9] conducted a numerical investigation into the electro-thermo-hydrodynamic convection system induced by an electric field. Their findings reveal the temporal and spatial distributions of the flow field, temperature field, electric field, and charge density within the system.…”

Effect of an Adiabatic Obstacle on the Symmetry of the Temperature, Flow, and Electric Charge Fields during Electrohydrodynamic Natural Convection

“…As an interesting application, Wang et al 13 study the ‘electro-thermo-hydrodynamic convection’ induced by unipolar charge injection by using a two-relaxation-time LBM coupled with a fast Poisson solver. They have identified the periodic flow patterns which could be affected by the lateral/horizontal computational domain sizes.…”

The lattice Boltzmann method and its applications in engineering flows