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Finite element methods for strongly-coupled systems of fluid-structure interaction with application to granular flow in silos

机译：流固耦合强耦合系统的有限元方法及其在筒仓中颗粒流动的应用

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A monolithic approach to fluid-structure interactions based on the space-time finite element method is presented to investigate stress states in silos filled with granular material during discharge. The thin-walled silo-shell is discretized by continuum based, mixed-hybrid finite elements, whereas the flowing granular material is described by an enhanced viscoplastic non-Newtonian fluid model. To adapt the mesh nodes of the fluid domain to the structural deformations, a mesh-moving scheme using a pseudo-solid is applied. The level-set-method involving XFEM is used, including a 4D split algorithm for the space-time finite elements, in order to describe free surfaces. The method is applied to 3D silo discharges. (© 2010 Wiley-VCH Verlag GmbH & Co. KGaA, Weinheim)

机译：提出了一种基于时空有限元方法的整体式流固耦合方法，以研究卸料过程中填充颗粒状物料的料仓中的应力状态。薄壁筒仓壳通过基于连续体的混合混合有限元离散化，而流动的粒状材料通过增强的粘塑性非牛顿流体模型来描述。为了使流体域的网格节点适应结构变形，应用了使用伪固体的网格移动方案。为了描述自由曲面，使用了涉及XFEM的水平集方法，其中包括针对时空有限元的4D分割算法。该方法适用于3D料仓放电。（©2010 Wiley-VCH Verlag GmbH＆Co.KGaA，Weinheim）

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Reinstädler, Sven; Zilian, Andreas; Dinkler, Dieter;
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年度 2010
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Finite element methods for strongly-coupled systems of fluid-structure interaction with application to granular flow in silos

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