NUMERICAL RESEARCH ON THE EFFECT OF FIBERS ON THE PROPERTY OF TURBULENT FIBER SUSPENSION IN A CHANNEL

SHEN SUHUA; LIN JIANZHONG

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NUMERICAL RESEARCH ON THE EFFECT OF FIBERS ON THE PROPERTY OF TURBULENT FIBER SUSPENSION IN A CHANNEL

机译：纤维对通道内湍流纤维悬浮性能影响的数值研究

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To explore the rheological property in turbulent channel flow of fiber suspensions, the equation of probability distribution function for mean fiber orientation and the Reynolds averaged Navier-Stokes equation with the term of additional stress resulted from fibers were solved with numerical methods to get the distributions of the mean velocity and turbulent kinetic energy. The simulation results show that the effect of fibers on turbulent channel flow is equivalent to an additional viscosity. The turbulent velocity profiles of fiber suspension become gradually sharper by increasing the fiber concentration and/or decreasing the Reynolds number. The turbulent kinetic energy will increase with increasing Reynolds number and fiber concentration.

机译：为了探索纤维悬浮液湍流通道中的流变特性，用数值方法求解了平均纤维取向的概率分布函数方程和具有纤维引起的附加应力的雷诺兹平均Navier-Stokes方程，得到了分布。平均速度和湍动能。仿真结果表明，纤维对湍流通道的影响等效于附加粘度。通过增加纤维浓度和/或降低雷诺数，纤维悬浮液的湍流速度分布变得越来越尖锐。湍动能将随着雷诺数和纤维浓度的增加而增加。

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《Modern Physics Letters, B. Condensed Matter Physics, Statistical Physics, Applied Physics》 |2009年第3期|共4页
作者
SHEN SUHUA; LIN JIANZHONG;
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原文格式 PDF
正文语种 eng
中图分类 530GL055;
关键词
fiber suspension flow; channel flow; rheological property; numerical simulation; additional stress;

机译：纤维悬浮液;通道流;流变性能;数值模拟;附加应力;

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专利

1. NUMERICAL RESEARCH ON THE EFFECT OF FIBERS ON THE PROPERTY OF TURBULENT FIBER SUSPENSION IN A CHANNEL [J] . SHEN SUHUA, LIN JIANZHONG Modern Physics Letters, B. Condensed Matter Physics, Statistical Physics, Applied Physics . 2009,第3期

机译：纤维对通道内湍流纤维悬浮性能影响的数值研究
2. Numerical Research on the Fiber Suspensions in a Turbulent T-shaped Branching Channel Flow [J] . 张善亮, 林建忠, 张卫峰中国化学工程学报：英文版 . 2007,第001期

机译：T形支流湍流中纤维悬浮液的数值研究
3. Orientation distribution of fibers and rheological property in fiber suspensions flowing in a turbulent boundary layer [J] . Jian Zhong Lin, Ke Sun, Weifeng Zhang 力学学报：英文版 . 2008,第003期

机译：在湍流边界层中流动的纤维悬浮液中纤维的取向分布和流变特性
4. Numerical simulation on the channel flow of fiber suspensions with the successive iteration method [C] . Zhou Kun, Lin Jianzhong International Conference on Hydrodynamics . 2005

机译：具有连续迭代方法的纤维悬架通道流量的数值模拟
5. Evaluation of next generation Capillary-Channeled Polymer fibers and the implementation of C-CP fiber modification modalities on non-fiber substrates. [D] . Haupt-Renaud, Paul. 2016

机译：评估下一代毛细管通道聚合物纤维以及在非纤维基材上实施C-CP纤维改性的方式。
6. Investigation of bifurcation properties of a model of myotonia caused by incomplete inactivation of sodium channels in skeletal muscle fibers [O] . Kamonwan Kocharoen, Jonathan Bell 2007

机译：骨骼肌纤维中钠通道未完全失活引起的肌强直模型分叉特性的研究
7. Mathematical modeling of turbulent fiber suspension and successive iteration solution in the channel flow [O] . Lin, JZ, Gao, ZY, Zhou, K, 2006

机译：湍流纤维悬浮液的数学建模及通道流中的逐次迭代求解
8. RHEOLOGY OF CONCENTRATED SUSPENSIONS OF FIBERS IN TUBE FLOW: III. SUSPENSIONS WITH THE SAME FIBER LENGTH DISTRIBUTION [R] . Richard O. Maschmeyer, Christopher T. Hill 1974

机译：管内浓缩悬浮液的流变学：III。具有相同纤维长度分布的悬浮液

NUMERICAL RESEARCH ON THE EFFECT OF FIBERS ON THE PROPERTY OF TURBULENT FIBER SUSPENSION IN A CHANNEL

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