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Numerical evaluation of turbulence models for dense to dilute gas-solid flows in vertical conveyor 被引量:4

Numerical evaluation of turbulence models for dense to dilute gas-solid flows in vertical conveyor
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摘要 A two-fluid model (TFM) ofmultiphase flows based on the kinetic theory and small frictional limit boundary condition of granular flow was used to study the behavior of dense to dilute gas-solid flows in vertical pneumatic conveyor. An axisymmetric 2-dimensional, vertical pipe with 5.6 m length and 0.01 m internal diameter was chosen as the computation domain, same to that used for experimentation in the literature. The chosen particles are spherical, of diameter 1.91 mm and density 2500 kg/m3. Turbulence interaction between the gas and particle phases was investigated by Simonin's and Ahmadi's models and their numerical results were validated for dilute to dense conveying of particles. Flow regimes transition and pressure drop were predicted. Voidage and velocity profiles of each phase were calculated in radial direction at different lengths of the conveying pipe. It was found that the voidage has a minimum, and gas and solid velocities have maximum values along the center line of the conveying pipe and pressure drop has a minimum value in transition from dense slugging to dilute stable flow regime. Slug length and pressure fluctuation reduction were predicted with increasing gas velocity, too. It is shown that solid phase tur- bulence plays a significant role in numerical prediction of hydrodynamics of conveyor and the capability of particles turbulence models deDends on tuning parameters of sliD-wall boundarv condition. A two-fluid model (TFM) ofmultiphase flows based on the kinetic theory and small frictional limit boundary condition of granular flow was used to study the behavior of dense to dilute gas-solid flows in vertical pneumatic conveyor. An axisymmetric 2-dimensional, vertical pipe with 5.6 m length and 0.01 m internal diameter was chosen as the computation domain, same to that used for experimentation in the literature. The chosen particles are spherical, of diameter 1.91 mm and density 2500 kg/m3. Turbulence interaction between the gas and particle phases was investigated by Simonin's and Ahmadi's models and their numerical results were validated for dilute to dense conveying of particles. Flow regimes transition and pressure drop were predicted. Voidage and velocity profiles of each phase were calculated in radial direction at different lengths of the conveying pipe. It was found that the voidage has a minimum, and gas and solid velocities have maximum values along the center line of the conveying pipe and pressure drop has a minimum value in transition from dense slugging to dilute stable flow regime. Slug length and pressure fluctuation reduction were predicted with increasing gas velocity, too. It is shown that solid phase tur- bulence plays a significant role in numerical prediction of hydrodynamics of conveyor and the capability of particles turbulence models deDends on tuning parameters of sliD-wall boundarv condition.
出处 《Particuology》 SCIE EI CAS CSCD 2012年第5期553-561,共9页 颗粒学报(英文版)
关键词 Vertical gas-solid flowTFMKinetic theoryTurbulenceNumerical modeling Vertical gas-solid flowTFMKinetic theoryTurbulenceNumerical modeling
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  • 1Srivastava, A., & Sundaresan, S. (2003). Analysis of a frictional-kinetic model for gas-particle flow. Powder Technology, 129, 72-85.
  • 2Syamlal, M. (1987). The particle-particle drag term in a multiparticle model of Jluidization topical report, DOE/MC/21353-2373, NTIS/DE87006500. Springfield, VA: National Technical Information Service.
  • 3Szafran, R. G., & Kmiec, A. (2004). CFD modeling of heat and mass transfer in a spouted bed dryer. Industrial & Engineering Chemistry Research, 43, 1113-1124.
  • 4Tulasidas, T. N., Kudra, T., Raghavan, G. S. V., & Mujumdar, A. S. (1992, August). Effect of bed height on drying of shelled corn in a two-dimensional spouted bed equipped with draft plates. In Proceedings of 15th international symposium on drying Budaoest. Hungary, (DO. 1564-1570).
  • 5Uemaki, O., Yamada, R., & Kugo, M. (1983). Particle segregation in a spouted bed of binary mixtures of particles. The Canadian Journal of Chemical Engineering, 61, 303-307.
  • 6Wu, Z., & Mujumdar, A. S. (2008). CFD modeling of the gas-particle flow behavior in spouted beds. Powder Technology, 183, 260-272.
  • 7Zhao, X. L, Yao, Q., & Li, S. Q. (2006). Effects of draft tubes on particle velocity profiles in spouted beds. Chemical Engineering Technology, 29, 875-881.
  • 8Abu-Zaid, S., & Ahmadi, G. (1990). Simple kinetic model for rapid granular flows including frictional losses.Journal of Engineering Mechanics, 116, 379-389.
  • 9Ahmadi, G., & Ma, D. (1990). A thermodynamical formulation for dispersed multiphase turbulent flows-I: Basic theory. International Journal of Multiphase Flows, 16, 323-340.
  • 10Benyahia, S. (2008). Validation study of two continuum granular frictional flow theories, Industrial & En~neering Chemistry Research, 47(22), 8926-8932.

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