Solid-Fluid Interaction on Particle Flow Maps

Duowen Chen, Zhiqi Li, Junwei Zhou, Fan Feng, Tao Du, Bo Zhu
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Abstract

We propose a novel solid-fluid interaction method for coupling elastic solids with impulse flow maps. Our key idea is to unify the representation of fluid and solid components as particle flow maps with different lengths and dynamics. The solid-fluid coupling is enabled by implementing two novel mechanisms: first, we developed an impulse-to-velocity transfer mechanism to unify the exchanged physical quantities; second, we devised a particle path integral mechanism to accumulate coupling forces along each flow-map trajectory. Our framework integrates these two mechanisms into an Eulerian-Lagrangian impulse fluid simulator to accommodate traditional coupling models, exemplified by the Material Point Method (MPM) and Immersed Boundary Method (IBM), within a particle flow map framework. We demonstrate our method's efficacy by simulating solid-fluid interactions exhibiting strong vortical dynamics, including various vortex shedding and interaction examples across swimming, falling, breezing, and combustion.
粒子流图上的固液相互作用
我们提出了一种新颖的固-流相互作用方法,用于将弹性固体与脉冲流图耦合。我们的主要想法是将流体和固体成分统一表述为具有不同长度和动力学特性的粒子流图。固-流耦合是通过实施两种新型机制来实现的:首先,我们开发了一种脉冲-速度传递机制,以统一交换的物理量;其次,我们设计了一种粒子路径积分机制,以沿着每个流图轨迹累积耦合力。我们的框架将这两种机制集成到欧拉-拉格朗日脉冲流体模拟器中,在粒子流图框架内容纳传统耦合模型,例如材料点法(MPM)和沉浸边界法(IBM)。我们通过模拟固体与流体之间表现出强烈涡旋动力学的相互作用,包括游泳、下落、微风和燃烧等各种涡旋脱落和相互作用实例,证明了我们方法的有效性。
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