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Numerical analysis on the influence of vortex motion in a reverse Stairmand cyclone separator by using LES model

Zhuwei Gao, Zhongxin Liu, Yaodong Wei, Chengxin Li, Shihao Wang, Xinyu Qi, Wei Huang

2021Petroleum Science28 citationsDOIOpen Access PDF

Abstract

This study aims to analyze the influence of vortex motion in a reverse Stairmand cyclone separator by using LES model. The mathematical analysis indicated that the energy dissipation and the flow characteristics of incompressible fluid are directly related to on the vortex motion. The results of the Q criterion-based iso-vortex surface could well reflect the tendency of the vortex structure, in which the iso-vortex surface exhibited a distorted distribution rather than around the center axis. At the turning point of velocity vector, vortices were formed and developed, and the point was the center of the local vortex core. In addition, the vortex formed an irregular annular region around the wall at the bottom of vortex finder. The vortex structure near the dust hopper presented a strong distortion. Moreover, there were two rotating flow in the opposite direction within the dust hopper. These phenomena would affect the separation performance, which was significance to cyclone separator.

Topics & Concepts

VortexCyclonic separationMechanicsHorseshoe vortexVortex stretchingStarting vortexVortex ringPhysicsBurgers vortexCompressibilityVorticityClassical mechanicsEngineeringMechanical engineeringInletCyclone Separators and Fluid DynamicsAerosol Filtration and Electrostatic PrecipitationParticle Dynamics in Fluid Flows