CFD study of Homogenization with an Axial 45° PBT Impeller in a Laboratory Unbaffled Stirred Reactor: Experiment and CFD Modeling

سال انتشار: 1391
نوع سند: مقاله کنفرانسی
زبان: انگلیسی
مشاهده: 1,441

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شناسه ملی سند علمی:

NICEC14_368

تاریخ نمایه سازی: 3 آذر 1391

چکیده مقاله:

The presented work is part of a study is carried out in order to gain insight of key process parameters for production of iron pyrite nanoparticles in a laboratory unbaffled stirred tank. Reynolds-averaged Navier-Stokes (RANS) equations were solved in a finite volume scheme coupled with the multiple reference frame (MRF) approach to predict mixing time in an unbaffled reactor equipped with a 45° pitched 4-blade turbine impeller. RSM turbulence model was applied to capture high swirling flow inside the reactor. User defined scalar (UDS) was also used to mimic and simulate transient behavior of the injected tracer. The resulted equations were discretized by using power law discretization scheme. The predicted results were compared to the experimental observations as well as to the empirical correlations available in the literatures. All the qualitative aspects of the predicted mixing time were found to be similar to those obtained experimentally. Satisfactory results indicate good agreement between experimental measurements and simulated results which demonstrates the ability of computational fluid dynamic (CFD) as a powerful tool in mixing process.

کلیدواژه ها:

Iron pyrite ، Computational Fluid Dynamic (CFD) ، Stirred reactor ، Mixing Time ، Pitched Blade Turbine impeller (PBT

نویسندگان

A Azarafza

Faculty of Chemical Engineering, Malek Ashtar University of Technology, Lavizan, Tehran,Iran

N Khandan

Department of chemical industries, Iranian Research Organization for Science & Technology (IROST

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  • The influence of the addition position 4ه [11] J.M. Bujalski, ...
  • R, Zadghaffan, J.S, Moghaddas, J. Revstedt, _ study On liquid-liquid ...
  • Tao Wang, Gengzhi Yu , Yumei Yong , Chao Yang ...
  • M. Jahoda_, M. Moste k, A. Kukukova- and V. Machon, ...
  • Otomo, N., Bujalski, W., Nienow, A.W. and Takahashi, K., " ...
  • Walas, S.M., "Chemical process equipment", Butterworth _ Heinemann Co., USA, ...
  • Fasano, J. B and Penney, W.R., 1991, Avoid blending mix-ups, ...
  • Bakker, R. A. and Fasano, J. B., 1994, Time dependent, ...
  • Ruszkowski, S., 1994, A rational method for measuring blending performance ...
  • W. Bujalski, Z. Jaworski, A.W. Nienow, _ study of homogeni ...
  • F. Guillard, C. Tragardh, : Mixing in industrial Rushton turbine ...
  • Lamberto, D.J., J M.M. Alvarez and F.J. Muzzio, : Experimental ...
  • Investigation of the Laminar Flow Structure in a Stirred Tank, ...
  • Paul, E. L., Atiemo- Obeng, v. A, Kresta, S. M. ...
  • G. Montante, K., Lee, A. Brucato, M. Yianneski s, "Numerical ...
  • B.E. Launder, D.B. Spalding, The numerical computation of turbulent flows, ...
  • Montanate, G., Bakker, A, Solid-Liquid multiphase flow validation in tall ...
  • Fluent, Fluent User's Guide Manual. Software release version 6.3.edition. 200)6. ...
  • Sahu, A., Joshi, J., Simulation of flow in stirred vessels ...
  • H.K. Versteeg, W. Malalasekera, An Introduction to Computational _ Dynamics, ...
  • Mavros, P, Flow visualization in stirred vesse. : _ A ...
  • Stanley M, Walas, Chemical Process Equipment, selection and design; B ...
  • Bakker, Andre, Applied Computational Fluid Dynamic, A series courses. Fluent ...
  • نمایش کامل مراجع