Effect of outlet diameter on square cyclone separator by modifiing the shape of vortex finder

Cyclones are one of the equipment that is widely used for the process of separating particles from a fluid stream. Many geometric and operational parameters influence cyclone performance. Experimental and numerical studies have been carried out to determine the characteristics of a cyclone by evalua...

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Hauptverfasser:	Basit, Abdul, Utomo, Mohamad Said Kartono Tony Suryo, Yohana, Eflita, Rahmanu, Zakaria, Choi, Kwang-Hwan
Format:	Tagungsbericht
Sprache:	eng
Schlagworte:	Cyclone separators Flow characteristics Fluid dynamics Parameter modification Performance evaluation Pressure drop Shape effects Vortices
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creator	Basit, Abdul Utomo, Mohamad Said Kartono Tony Suryo Yohana, Eflita Rahmanu, Zakaria Choi, Kwang-Hwan
description	Cyclones are one of the equipment that is widely used for the process of separating particles from a fluid stream. Many geometric and operational parameters influence cyclone performance. Experimental and numerical studies have been carried out to determine the characteristics of a cyclone by evaluating the influence of its geometric and operational parameters. The Computational Fluid Dynamic method simulates the modified shape of the vortex finder and variations in the output diameter of the cyclone separator to determine the effect on flow characteristics and performance. The four vortex finder shapes used are Cylindrical, Convergent, Divergent, and Convergent Divergent while the output diameter variations used are DO ∅︀75 mm and DO ∅︀50 mm. The simulation results show similarities in the numerical and experimental studies. The simulation results show that the maximum tangential velocity of a square cyclone design with a diverging shape with an outlet diameter of DO ∅︀50 is 56% and a maximum pressure drop of 61% compared to a cylindrical vortex finder. Particle efficiency increases with decreasing outlet diameter
doi_str_mv	10.1063/5.0205171
format	Conference Proceeding
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Many geometric and operational parameters influence cyclone performance. Experimental and numerical studies have been carried out to determine the characteristics of a cyclone by evaluating the influence of its geometric and operational parameters. The Computational Fluid Dynamic method simulates the modified shape of the vortex finder and variations in the output diameter of the cyclone separator to determine the effect on flow characteristics and performance. The four vortex finder shapes used are Cylindrical, Convergent, Divergent, and Convergent Divergent while the output diameter variations used are DO ∅︀75 mm and DO ∅︀50 mm. The simulation results show similarities in the numerical and experimental studies. The simulation results show that the maximum tangential velocity of a square cyclone design with a diverging shape with an outlet diameter of DO ∅︀50 is 56% and a maximum pressure drop of 61% compared to a cylindrical vortex finder. 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Many geometric and operational parameters influence cyclone performance. Experimental and numerical studies have been carried out to determine the characteristics of a cyclone by evaluating the influence of its geometric and operational parameters. The Computational Fluid Dynamic method simulates the modified shape of the vortex finder and variations in the output diameter of the cyclone separator to determine the effect on flow characteristics and performance. The four vortex finder shapes used are Cylindrical, Convergent, Divergent, and Convergent Divergent while the output diameter variations used are DO ∅︀75 mm and DO ∅︀50 mm. The simulation results show similarities in the numerical and experimental studies. The simulation results show that the maximum tangential velocity of a square cyclone design with a diverging shape with an outlet diameter of DO ∅︀50 is 56% and a maximum pressure drop of 61% compared to a cylindrical vortex finder. 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subjects	Cyclone separators Flow characteristics Fluid dynamics Parameter modification Performance evaluation Pressure drop Shape effects Vortices
title	Effect of outlet diameter on square cyclone separator by modifiing the shape of vortex finder
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