Author/Authors :
-، - نويسنده State Key Laboratory of Chemical Engineering, East China University of Science and Technology,
Shanghai, 200237, CHINA Lun Cen, Zhuo , -، - نويسنده State Key Laboratory of Chemical Engineering, East China University of Science and Technology,
Shanghai, 200237, CHINA Gang Zhao, Ji , -، - نويسنده State Key Laboratory of Chemical Engineering, East China University of Science and Technology,
Shanghai, 200237, CHINA Xian Shen, Ben
Abstract :
The design and optimization of hydrocyclones using CFD techniques are gaining popularity and the key to a successful simulation lies with the accurate description of the high turbulent swirling behavior of the flow. This paper presents a detailed comparison between the Omega RSM and the RNG k–e turbulence model, which are both derived specially for modeling swirling or rotational flow, in the simulation of a hydrocyclone. The predictions of velocity field, volume of vortexes, mass split and turbulent viscosity were obtained and compared. It is showed that in general both models gave similar predictions of the flow field under different inlet velocities, while the predictions of turbulent viscosity and in the core region of hydrocyclone were found more closely aligned with the reality using Omega RSM.
