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聚合物稀溶液的微观-宏观确定性模拟 被引量:1

Micro-macro methods for deterministic simulation of dilute polymeric fluids
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摘要 采用确定性方法数值求解了聚合物稀溶液的微观-宏观模型,其中,宏观尺度上用有限体积法求解守恒方程,介观尺度上用谱方法求解Fokker-Planck方程和聚合物对偏应力张量的贡献,模拟了聚合物稀溶液FENE哑铃模型的平板Couette流动,给出了速度随时间变化的剖面图,分析了移动平板速度、哑铃的量纲1有限拉伸参数和Deborah数对流动的影响,同时也验证了有限体积法与谱方法结合求解聚合物微观-宏观模型的有效性。 Deterministic simulation approach was applied to calculating numerically the micro-macro model describing the dynamics of dilute polymeric fluids, in which the finite volume method (FVM) was used to solve the conservation equations on the macroscopic level and the spectral method was used to solve the Fokker-Planck equation and the polymeric contribution to the extra-stress tensor on the mesoscopic level. This approach was used to simulate plane Couette flows of dilute polymeric fluids by the FENE dumbbell models. The evolution of the velocity profile was obtained and the influences of the moving plate velocity, the dimensionless finite extensibility parameter of dumbbells and Deborah number on the polymeric fluids flows were analyzed. The combination of FVM and the spectral method was effectively used to solve the micro-macro model describing the polymeric fluids flows.
作者 刘德峰 欧阳洁 张红平 赵智峰
机构地区 西北工业大学应用数学系
出处 《化工学报》 EI CAS CSCD 北大核心 2008年第3期582-589,共8页 CIESC Journal
基金 国家自然科学基金重大项目(10590353) 陕西省自然科学基金项目(2005A16)~~
关键词 聚合物稀溶液 FOKKER-PLANCK方程 微观-宏观模拟 FENE哑铃 平板Couette流动 dilute polymeric fluids Fokker-Planck equation micro-macro simulation FENE dumbbell plane Couette flows
分类号 TQ02 [化学工程] TQ31 [化学工程—高聚物工业]
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参考文献20

  • 1Keunings R. Micro-macro methods for the multiscale simulation of viscoelastic flow using molecular models of kinetic theory//Binding D M, Waiters K. Rheology Reviews 2004. UK: British Society of Rheology, 2004:67-98.
  • 2Kathleen F, Franz X Tanner. Development and evaluation of a micro-macro algorithm for the simulation of polymer flow. Journal of Computational Physics, 2006, 214 (1) : 92-113.
  • 3范西俊.哑铃式聚合物分子模型流变学数值研究[J].力学进展,1990,20(1):11-23. 被引量:4
  • 4Suen J K C. Multiscale simulation of viscoelastic flows: applications to kinetic theory models of polymer melts and liquid crystalline polymers [D]. Madison: University of Wisconsin, 2002.
  • 5Lozinski A, Chauviere C, Fang J, Owens R G. FokkerPlanck simulations of fast flows of melts and concentrated polymer solutions in complex geometries. Journal of Rheology, 2003, 47 (2): 535-561.
  • 6Chauviere C, Lozinski A. Simulation of dilute polymer solutions using a Fokker-Planek equation. Computers & Fluids, 2004, 33 (5/6): 687-696.
  • 7Lozinski A, Chauviere C. A fast solver for Fokker-Planck equation applied to viscoelastic flows calculations: 2D FENE model. Journal of Computational Physics, 2003, 189 (2): 607-625.
  • 8Chauviere C, Lozinski A. Simulation of complex viscoelastic flows using the Fokker-Planck equation: 3D FENE model. Journal of Non-Newtonian Fluid Mechanics, 2004, 122 (1/2/3): 201-214.
  • 9Lozinski A, Owens R G, Fang J. A Fokker-Planck-based numerical method for modelling strongly non-homogeneous flows of dilute polymeric solutions. Journal of NonNewtonian Fluid Mechanics, 2003, 122 ( 1/2/3 ) : 273-286.
  • 10Lozinski A. Spectral methods for kinetic theory models of viscoelastic fluids [ D]. Lausanne: Ecole Polytchnique Federale de Lausanne, 2003.

二级参考文献2

  • 1范西俊.水力学相互作用对虎克哑铃分子模型稀溶液流变性质的影响[J]应用数学和力学,1987(09).
  • 2N. Phan-Thien,O. Manero,L. G. Leal. A study of conformation-dependent friction in a dumbbell model for dilute solutions[J] 1984,Rheologica Acta(2):151~162

共引文献3

同被引文献16

  • 1Keunings R. Micro-macro methods for the muhiscale simulation of viscoelastic flow using molecular models of kinetic theory//Binding D M, Waiters K. Rheology Reviews 2004. UK: British Society of Rheology, 2004, 67 98.
  • 2Suen J K C. Multiscale simulation of viscoelastic flows: applications to kinetic theory models of polymer melts and liquid crystalline polymers [D]. Madison: University of Wisconsin, 2002.
  • 3Lozinski A, Chauvi6re C, Fang J, Owens R G. Fokker- Planck simulations of fast flows of melts and concentrated polymer solutions in complex geometries. Journal of Rheology, 2003, 47 (2): 535-561.
  • 4Chauviere C, Lozinski A. Simulation of dilute polymer solutions using a Fokker Planck equation. Computers Fluids, 2004, 33 (5/6): 687-696.
  • 5Lozinski A, Chauviere C. A fast solver for Fokker Planck equation applied to viscoelastic flows calculations: 2D FENE model. Journal of Computational Physics, 2003,189 (2): 607-625.
  • 6Chauviere C, Lozinski A. Simulation of complex viscoelastic flows using the Fokker-Planck equation: 3D FENE model. Journal of Non-Newtonian Fluid Mechanics, 2004, 122 (1/2/3): 201-214.
  • 7Lozinski A, Owens R G, Fang J. A Fokker-Planck-based numerical method for modelling strongly non homogeneous flows of dilute polymeric solutions. Journal of Non Newtonian Fluid Mechanics, 2003, 122 ( 1/2/3 ) : 273-286.
  • 8Lozinski A. Spectral methods for kinetic theory models of viscoelastic fluids [D]. Lausanne"Ecole Polytchnique Federale de Lausanne, 2003.
  • 9Nayak R. Molecular simulation of liquid crystal polymer flow: a wavelet finite element analysis [D] . Boston.- Massachusetts Institute of Technology, 1998.
  • 10JiangTiqian(江体乾).Rheology of Chemical Industry and Engineering(化工流变学).Shanghai:East China University of Scienceand Technology Press,2004:464.

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化工学报
2008年 第3期

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