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NUMERICAL SIMULATIONS OF HYDRODYNAMIC BEHAVIORS IN CONICAL SPOUTED BEDS 被引量:2

NUMERICAL SIMULATIONS OF HYDRODYNAMIC BEHAVIORS IN CONICAL SPOUTED BEDS
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摘要 The axial and radial distributions of static pressures and vertical particle velocities of conical spouted beds have been simulated and compared with experimental data. Simulation results show that, among all factors investigated, the Actual Pressure Gradient (the APG term) in conical spouted beds, introduced as the default gravity term plus an empirical axial solid phase source term, has the most significant influence on static pressure profiles, followed by the restitution coefficient and frictional viscosity, while other factors almost have no effect. Apart from the solid bulk viscosity, almost all other factors affect the radial distribution of the axial particle velocity, although the influence of the APG term is less significant. For complex systems such as conical spouted beds where a fluidized spout region and a defluidized annulus region co-exist, the new term introduced in this work can improve the CFD simulation. Furthermore, for other systems with the Actual Pressure Gradient different from either fluidized beds or packed beds, the new approach can also be applied. The axial and radial distributions of static pressures and vertical particle velocities of conical spouted beds have been simulated and compared with experimental data. Simulation results show that, among all factors investigated, the Actual Pressure Gradient (the APG term) in conical spouted beds, introduced as the default gravity term plus an empirical axial solid phase source term, has the most significant influence on static pressure profiles, followed by the restitution coefficient and frictional viscosity, while other factors almost have no effect. Apart from the solid bulk viscosity, almost all other factors affect the radial distribution of the axial particle velocity, although the influence of the APG term is less significant. For complex systems such as conical spouted beds where a fluidized spout region and a defluidized annulus region co-exist, the new term introduced in this work can improve the CFD simulation. Furthermore, for other systems with the Actual Pressure Gradient different from either fluidized beds or packed beds, the new approach can also be applied.
作者 C. J. Lim
机构地区 Fluidization Research Centre
出处 《China Particuology》 SCIE EI CAS CSCD 2006年第3期194-203,共10页
关键词 conical spouted bed HYDRODYNAMICS numerical simulation multiphase model conical spouted bed, hydrodynamics, numerical simulation, multiphase model
分类号 TQ021 [化学工程]
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参考文献35

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同被引文献26

  • 1欧阳洁,李静海,崔俊芝.颗粒轨道模型中相间耦合关系及曳力计算的研究[J].动力工程,2004,24(6):857-862. 被引量:11
  • 2WU Chun-liang,ZHAN Jie-min.NUMERICAL PREDICTION OF PARTICLE MIXING BEHAVIOR IN A BUBBLING FLUIDIZED BED[J].Journal of Hydrodynamics,2007,19(3):335-341. 被引量:7
  • 3Thanit Swasdisevi,Wiwut Tanthapanichakoon,Tawatchai Charinpanitkul,Toshihiro Kawaguchi,Toshitsugu Tanaka,Yutaka Tsuji.Prediction of gas–particle dynamics and heat transfer in a two-dimensional spouted bed[J]. Advanced Powder Technology . 2005 (3)
  • 4GRYCZKA O,HEINRICH S,DEEN N.G.et al.Characterization and CFD-modeling of the hydrodynamics of a prismatic spouted bed apparatus. Chemical Engineering Science . 2009
  • 5SHUYAN W,XIANG L,HUILIN L.et al.Numerical simulations of flow behavior of gas and particles in spouted beds using frictional-kinetic stresses model. Powder Technology . 2009
  • 6DU W,BAO X,XU J.et al.Computational fluid dynamics (CFD)modeling of spouted bed:Influence of frictional stress,maximum packing limit and coefficient of restitution of particles. Chemical Engineering Science . 2006
  • 7TAKEUCHI S,WANG S,RHODES M.Discrete element simulation of a flat-bottomed spouted bed in the3-D cylindrical coordinate system. Chemical Engineering Science . 2004
  • 8ZHAO X.L,LI S.Q,LIU G.Q.et al.Flow patterns of solids in a two-dimensional spouted bed with draft plates:PIV measurement and DEM simulations. Powder Technology . 2007
  • 9WU C.L,BERROUK A.S,NANDAKUMAR K.Three-dimensional discrete particle model for gas-solid fluidized beds on unstructured mesh. Chemical Engineering . 2009
  • 10WU C.L,ZHAN J.M,LI Y.S.et al.Dense particulate flow model on unstructured mesh. Chemical Engineering Science . 2006

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China Particuology
2006年 第3期

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