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Computational Fluid Dynamics Approach to the Effect of Mixing and Draft Tube on the Precipitation of Barium Sulfate in a Continuous Stirred Tank 被引量:12

用数值模拟方法分析混合和导流筒对搅拌槽中沉淀硫酸钡的影响
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摘要 The effect of mixing on the precipitation of barium sulfate in a continuous stirred tank is simulated numerically with different feeding location, feed concentration, impeller speed and residence time through solving the standard momentum and mass transport equations in combination with the moment equations for crystal population balance. The numerical method was validated with the literature data. The simulation results including the distribution of the local supersaturation ratio distribution in the precipitator, mean crystal size and coefficient of variation under different operating conditions compared well with experimental data in the literature. The effect of the presence of a draft tube on precipitation were also investigated, and it is suggested that the installation of a draft tube increased the mean crystal size, in general agreement with experimental work in the literature.
出处 《Chinese Journal of Chemical Engineering》 SCIE EI CAS CSCD 2006年第6期713-722,共10页 中国化学工程学报(英文版)
基金 Supported by the National Natural Science Foundation of China (Nos.20236050, 50134020) and the Special Funds for Major State Basic Research Program of China (973 Program, 2004CB217604).
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  • 1张政 王英琛 等.搅拌槽三维流动场数值模拟.第九届化学工程科技报告会论文集[M].,1998.583-587.
  • 2王卫京.气液两相搅拌槽的数值模拟与实验研究[M].北京:中国科学院过程工程研究所,2002..
  • 3[1]Zwietering, T.N., "Suspending of solid particles in liquid by agitators", Chem. Eng. Sci., 8, 244-253 (1958).
  • 4[2]Armenante, P.M., Nagamine, E.U., Susanto, J., "Determination of correlations to predict the minimum agitation speed for complete solid suspension in agitated vessels",Can. J. Chem. Eng., 76, 413-419 (1998).
  • 5[3]Armenante, P.M., Nagamine, E.U., "Effect of low offbottom impeller clearance on the minimum agitation speed for complete suspension in stirred tanks", Chem. Eng. Sci.,53, 1757-1775 (1998).
  • 6[4]Reiger, F., Ditl, P., Havelkova, O., "Suspension of solid particles concentration profiles and particle layer on the vessel bottom", In: 6th European Conference on Mixing, Pavia,Italy, 251-258 (1988).
  • 7[5]Bourne, J.R., Sharma, R.N., "Suspension characteristics of solid particles in propeller agitated tanks", In: 1st European Conference on Mixing and Centrifugal Separation,Cambridge, BHRA, Cranfield, UK, B3, 25-39 (1974).
  • 8[6]Baldi, G., Conti, R., Alaria, E., "Complete suspension of particles in mechanically agitated vessels", Chem. Eng.Sci., 33, 21-25 (1978).
  • 9[7]Wichterle, K., "Conditions for suspension of solids in agitated vessels", Chem. Eng. Sci., 43, 467-471 (1988).
  • 10[8]Gosman, A.D., Issa, R.I., Lekakou,C., Looney, M.K., Politis, S., "Multidimensional modeling of turbulent two-phase flows in stirred vessels", AIChE J., 38, 1946-1956 (1992).

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