首页|The movement law and orientation control of rectangular particles in the viscous fluid domain based on IS-FEM
The movement law and orientation control of rectangular particles in the viscous fluid domain based on IS-FEM
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Understanding the movement law and orientation control mechanism of non-spherical particles are significant for industrial applications. In this work, the flow characteristics of rectangular particles, in the uniform and wedge viscous fluid domain, are simulated by the immersed smoothed finite element method (IS-FEM). The influences of mesh resolution and time-step on particle velocity are analyzed, and the numerical procedure is validated by the published model and sedimentation experiments. The operating parameters that affect the particle flow are systematically studied, including Reynolds number, initial angle, channel offset distance, and aspect ratio. Moreover, the particle angles are adjusted by the velocity gradient of fluid domains. The result indicates that the velocities, angle, and drag of rectangular particles are closely related to the working conditions. The long axis of rectangular particles is consistent with the flow direction in shrinking fluid domains and is perpendicular to the flow direction in expanding fluid domains. The angle distribution law of rectangular particles in moving wedge fluid domains is determined. These findings provide a theoretical foundation for particle sedimentation and suspension flow, which is helpful for the further separation and orientation control of mixed particles.
Movement lawOrientation controlRectangular particleImmersed smoothed finite element methodSedimentation experiment
Jie Su、Changjiang Zhou、Chen Jiang
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State Key Laboratory of Advanced Design and Manufacture for Vehicle Body, Hunan University, Changsha 410082, PR China
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