CFD of Cyclone separator Animation Computational Fluid Dynamics cfd

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Visit our website for more info-www.stymertech.com • Objective- • To investigate the Performance of the Cyclone Separator by using Computational Fluid Dynamics simulation. • Description- • The cyclone separators are used in the removal of dust particles from the gas flow in industrial processes. Cyclone dust separators have been used in industries to separate dust particles from the gas solid flow in-turn reducing the air pollution occurring due to the chimney smoke in the chemical plant. The cyclone separators are the most robust dust separators. In a classical cyclone separator, the dust gas enters tangentially and forces the flow to follow spiral motion. Thus, the created centrifugal force forces the dust particle towards the wall of the cyclone. After striking the wall of cyclone, the particles fall down and get separated. In the new engineering applications, the cyclone separators are used as reactors, dryers in petroleum industries to remove catalyst from the gases. The cyclone geometry is the most important parameter that affects the cyclone performance. • A Computational Fluid Dynamics analysis is used to predict and to evaluate the effects of temperature, operating pressure and inlet velocity on the collection efficiency of gas cyclones. The simulation is carried out for gas particle flow in cyclone separator. The Computation Fluid Dynamics (CFD) analysis is carried out for single inlet cyclone separator under the condition of inlet velocity, flow rate and particle diameter. The efficiency of ash separation was predicted by using the flow velocity in the cyclone separator and the pressure drop in the vortex finder. • The Reynold Stress Model (RSM) was employed for the swirl flows modelling accuracy. Continuity, momentum and energy equations are solved using ANSYS FLUENT software. Discrete Phase Model (DPM)-one-way coupling was used to predict the efficiency of collection. • The pressure in the cyclone varies along the horizontal-axis as shown in the contours. The pressure first decreases and then increases. The minimum pressure occurs at the mid-section. The velocity in the cyclone first increase from the centre and then decreases at the wall. The velocity is high at the middle portion of the centre and the wall. • Tags • CFD, Cyclone Separator, Animation, Fluid Dynamics, Computational Fluid Dynamics, CFD Tutorial, Animation Techniques, Fluid Flow Simulation, CFD Mastery, YouTube Education, Engineering Insights, Simulation Tools, Fluid Mechanics, CFD Simulation, Tech Innovation, Learn CFD, Animation Breakdown, Cyclone Separator Secrets, Educational Content, Engineering Explained, CFD Tips, Visualize Fluid Dynamics, Learn Animation, Simulation Software, Fluid Dynamics Tutorial, CFD Demystified, CFD Animation Explained, Engineering Mastery, Fluid Dynamics Simulation, CFD Fundamentals, Animation Learning, Computational Fluid Dynamics Techniques, Cyclone Separator Simulation. • #CFDExploration • #CycloneSeparatorMagic • #FluidDynamicsUnveiled • #youtubetutorial • #CFDRevolution • #techinnovation

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