Periodic Behaviour of Mean Velocity Fields in Rushton Turbine (RT) Driven Stirred Tank

Abstract: The present study predicts the periodic behavior of mean velocity fields from the properly verified and validated CFD model to determine the extent of vortex and turbulent activity in a baffled tank stirred by standard six bladed Rushton Turbine. This region includes most of the vortex and turbulent action that controls the mixing and mass transfer processes in the stirred tank. The complexity of periodicity of mean radial and tangential velocities in the radial direction and mean axial velocity in the axial d… Show more

“…Once the chemical composition of the volatile material of the synthesis gas is known, the models used in the simulation are related. These models are based on the momentum conservation equations, the turbulence model that adjusts to the fluid-dynamic and energy transport behavior of the system, and the energy and species conservation models indicated by the studies [27][28][29][30][31][32].…”

Energy Evaluation of Synthesis Gas in a Turbocharger System Employing CFD Tools

“…Once the chemical composition of the volatile material of the synthesis gas is known, the models used in the simulation are related. These models are based on the momentum conservation equations, the turbulence model that adjusts to the fluid-dynamic and energy transport behavior of the system, and the energy and species conservation models indicated by the studies [27][28][29][30][31][32].…”

Energy Evaluation of Synthesis Gas in a Turbocharger System Employing CFD Tools