Modelling vortex formation in an unbaffled stirred tank reactors

G. M.Cartland Glover; J. J. Fitzpatrick

doi:10.1016/j.cej.2006.09.019

Modelling vortex formation in an unbaffled stirred tank reactors

G. M.Cartland Glover
, J. J. Fitzpatrick

School of Engineering and Architecture

Helmholtz-Zentrum Dresden-Rossendorf

Research output: Contribution to journal › Article › peer-review

Abstract

Agitating liquids in unbaffled stirred tank leads to the formation of a vortex in the region of the impeller shaft when operating in the turbulent flow regime. A numerical model is presented here that captures such a vortex. The volume of fluid model, a multiphase flow model was employed in conjunction with a multiple reference frame model and the shear stress turbulence model. The dimensions of the tank considered here, were 0.585 m for the liquid depth and tank diameter with a 0.2925 m diameter impeller at a height of 0.2925 m. The impeller considered was an eight-bladed paddle type agitator that was rotating with an angular velocity of 7.54 rad s^-1 (72 rpm) giving a Reynolds number of 10⁵ and Froude number of 0.043. Preliminary results of a second investigation into the effect of liquid phase properties on the vortex formed are also presented.

Original language	English
Pages (from-to)	11-22
Number of pages	12
Journal	Chemical Engineering Journal
Volume	127
Issue number	1-3
DOIs	https://doi.org/10.1016/j.cej.2006.09.019
Publication status	Published - 1 Mar 2007

Keywords

Computation fluid dynamics
Free surface vortices
Stirred tanks
Volume of fluid

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10.1016/j.cej.2006.09.019

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title = "Modelling vortex formation in an unbaffled stirred tank reactors",

abstract = "Agitating liquids in unbaffled stirred tank leads to the formation of a vortex in the region of the impeller shaft when operating in the turbulent flow regime. A numerical model is presented here that captures such a vortex. The volume of fluid model, a multiphase flow model was employed in conjunction with a multiple reference frame model and the shear stress turbulence model. The dimensions of the tank considered here, were 0.585 m for the liquid depth and tank diameter with a 0.2925 m diameter impeller at a height of 0.2925 m. The impeller considered was an eight-bladed paddle type agitator that was rotating with an angular velocity of 7.54 rad s-1 (72 rpm) giving a Reynolds number of 105 and Froude number of 0.043. Preliminary results of a second investigation into the effect of liquid phase properties on the vortex formed are also presented.",

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T1 - Modelling vortex formation in an unbaffled stirred tank reactors

AU - Glover, G. M.Cartland

AU - Fitzpatrick, J. J.

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N2 - Agitating liquids in unbaffled stirred tank leads to the formation of a vortex in the region of the impeller shaft when operating in the turbulent flow regime. A numerical model is presented here that captures such a vortex. The volume of fluid model, a multiphase flow model was employed in conjunction with a multiple reference frame model and the shear stress turbulence model. The dimensions of the tank considered here, were 0.585 m for the liquid depth and tank diameter with a 0.2925 m diameter impeller at a height of 0.2925 m. The impeller considered was an eight-bladed paddle type agitator that was rotating with an angular velocity of 7.54 rad s-1 (72 rpm) giving a Reynolds number of 105 and Froude number of 0.043. Preliminary results of a second investigation into the effect of liquid phase properties on the vortex formed are also presented.

AB - Agitating liquids in unbaffled stirred tank leads to the formation of a vortex in the region of the impeller shaft when operating in the turbulent flow regime. A numerical model is presented here that captures such a vortex. The volume of fluid model, a multiphase flow model was employed in conjunction with a multiple reference frame model and the shear stress turbulence model. The dimensions of the tank considered here, were 0.585 m for the liquid depth and tank diameter with a 0.2925 m diameter impeller at a height of 0.2925 m. The impeller considered was an eight-bladed paddle type agitator that was rotating with an angular velocity of 7.54 rad s-1 (72 rpm) giving a Reynolds number of 105 and Froude number of 0.043. Preliminary results of a second investigation into the effect of liquid phase properties on the vortex formed are also presented.

KW - Computation fluid dynamics

KW - Free surface vortices

KW - Stirred tanks

KW - Volume of fluid

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VL - 127

SP - 11

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JO - Chemical Engineering Journal

JF - Chemical Engineering Journal

IS - 1-3

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Modelling vortex formation in an unbaffled stirred tank reactors

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Keywords

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