Modeling fluid spread in thin fibrous sheets: Effects of fiber orientation

A. Ashari; T.M. Bucher; H. Vahedi Tafreshi; M.A. Tahir; M.S.A. Rahman

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Modeling fluid spread in thin fibrous sheets: Effects of fiber orientation

机译：模拟在薄纤维片中扩散的流体：纤维取向的影响

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In this paper, a dual-scale model is developed to simulate the radial spreading of liquids in thin fibrous sheets. Using 3-D microscale simulations, the required constitutive equations, capillary pressure and relative permeability, have been determined at each saturation level and used in a macroscale model developed based on the Richards' equation of two-phase flow in porous media. The dual-scale approach allowed us to include the partially-saturated region of a porous medium in calculations. Simulating different fibrous sheets with identical parameters but different in-plane fiber orientations, it is revealed that the rate of fluid spread increases with increasing the in-plane alignment of the fibers. Our simulations are discussed with respect to existing studies in the literature.

机译：在本文中，建立了双尺度模型来模拟液体在薄纤维片中的径向扩散。使用3-D微观模拟，已确定了每个饱和水平所需的本构方程，毛细管压力和相对渗透率，并将其用于基于多孔介质中两相流的Richards方程开发的宏观模型中。双尺度方法允许我们在计算中包括多孔介质的部分饱和区域。模拟具有相同参数但平面内纤维取向不同的不同纤维片，发现流体扩散速率随纤维平面内排列的增加而增加。我们的模拟是参考文献中的现有研究进行讨论的。

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来源
《International Journal of Heat and Mass Transfer》 |2010年第10期|1750-1758|共9页
作者
A. Ashari; T.M. Bucher; H. Vahedi Tafreshi; M.A. Tahir; M.S.A. Rahman;
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作者单位

Mechanical Engineering Department, Virginia Commonwealth University, Richmond, VA 23284-3015, USA;

Mechanical Engineering Department, Virginia Commonwealth University, Richmond, VA 23284-3015, USA;

Mechanical Engineering Department, Virginia Commonwealth University, Richmond, VA 23284-3015, USA;

Mechanical Engineering Department, Virginia Commonwealth University, Richmond, VA 23284-3015, USA;

Mechanical Engineering Department, Virginia Commonwealth University, Richmond, VA 23284-3015, USA;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类
关键词
fibrous porous media; two-phase flows; anisotropic permeability; fiber orientation; absorbency; CFD simulation;

机译：纤维状多孔介质两相流各向异性渗透率纤维取向吸收能力CFD模拟;

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2. A semi-analytical model for simulating fluid transport in multi-layered fibrous sheets made up of solid and porous fibers [J] . Ashari A., Bucher T.M., Vahedi Tafreshi H. Computational Materials Science . 2010,第2期

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Modeling fluid spread in thin fibrous sheets: Effects of fiber orientation

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