The Effect of Using Baffles on the Rate of Mass Transfer of a Cylindrical Stirred Tank Reactor

Owing to the high mixing capacity, the stirred tank reactor is the key class of reactors in the chemical process industry and pharmaceutical industry. The mass transport nature of a batch stirred tank reactor with a fixed copper wall with a cylinder form was studied using copper dissolution in acidi...

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Veröffentlicht in:	Materials science forum 2020-08, Vol.1008, p.168-176
Hauptverfasser:	Sedahmed, Gomaa H., El-Fattah, Marwa Abd, El-Gayar, Dina Ahmed, Shokry, Fathy, Farag, H.A.
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Schlagworte:	Acidification Axial flow turbines Chemical process industries Chromates Copper Cylindrical tanks Diffusion rate Dimensional analysis Electroplating Fixed beds Heat transfer Impellers Mass transfer Materials science Pharmaceutical industry Physical properties Potassium Radial flow Reactors Rotation Stainless steel Turbines Viscosity
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description	Owing to the high mixing capacity, the stirred tank reactor is the key class of reactors in the chemical process industry and pharmaceutical industry. The mass transport nature of a batch stirred tank reactor with a fixed copper wall with a cylinder form was studied using copper dissolution in acidified dichromate which is controlled by diffusion. Variables analyzed included the speed of rotation of the impeller, the shape of the impeller and the physical specifications of the solution and the existence of baffles. The data were correlated for the conditions 3667.323 < Re < 34993.18 and 960 < Sc < 1364, for radial flow by the equation: Sh =0.3453 Sc1/3Re0.66 but for axial flow by the equation: Sh =0.5866 Sc1/3Re0.59. Through speed of rotation of the impeller increases,it allows the rate of mass transfer from the fixed bed to the solution to rise. The radial-flow turbine is more effective than the axial-flow turbine in increasing the rate of mass transfer. The usage of baffles plays a significant role in rising the rate of mass transfer. Using baffles; the correlation will be Sh =0.0769 Sc1/3Re0.84 for radial flow and Sh =0.1157 Sc1/3Re0.78 for axial flow. The purpose of this research is to estimate the rate of mass transport that can be required in corrosive reactions, and also to maximize the mass transfer rate that can be achieved in other processes, such as electroplating in presence of baffles.
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The mass transport nature of a batch stirred tank reactor with a fixed copper wall with a cylinder form was studied using copper dissolution in acidified dichromate which is controlled by diffusion. Variables analyzed included the speed of rotation of the impeller, the shape of the impeller and the physical specifications of the solution and the existence of baffles. The data were correlated for the conditions 3667.323 < Re < 34993.18 and 960 < Sc < 1364, for radial flow by the equation: Sh =0.3453 Sc1/3Re0.66 but for axial flow by the equation: Sh =0.5866 Sc1/3Re0.59. Through speed of rotation of the impeller increases,it allows the rate of mass transfer from the fixed bed to the solution to rise. The radial-flow turbine is more effective than the axial-flow turbine in increasing the rate of mass transfer. The usage of baffles plays a significant role in rising the rate of mass transfer. Using baffles; the correlation will be Sh =0.0769 Sc1/3Re0.84 for radial flow and Sh =0.1157 Sc1/3Re0.78 for axial flow. 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subjects	Acidification Axial flow turbines Chemical process industries Chromates Copper Cylindrical tanks Diffusion rate Dimensional analysis Electroplating Fixed beds Heat transfer Impellers Mass transfer Materials science Pharmaceutical industry Physical properties Potassium Radial flow Reactors Rotation Stainless steel Turbines Viscosity
title	The Effect of Using Baffles on the Rate of Mass Transfer of a Cylindrical Stirred Tank Reactor
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