Hydrodynamics of Orthotropic Shapes Utilizing Ellipsoidal Harmonics

2015 Second International Conference on Mathematics and Computers in Sciences and in Industry (MCSI) Pub Date : 2015-08-17 DOI:10.1109/MCSI.2015.36

I. Chatjigeorgiou, G. Dassios, T. Miloh

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Abstract

Hydrodynamics (inviscid fluid and irrotational flow) of rigid bodies with three mutually perpendicular plans of symmetry (orthotropic shapes) moving in confined media (wall, channel etc.) is analyzed by applying Lamé's functions and ellipsoidal harmonics. Towards this goal, a general numerical scheme for computing ellipsoidal harmonics of arbitrary order and degree is presented. In order to demonstrate the versatility of the method, which maybe is useful in many practical applications in mathematical physics, we chose to analytically address here the case of a tri-axial rigid ellipsoidal vessel moving steadily near a rigid wall or along the center of a two-dimensional channel. Free-surface effects are ignored and we are mainly interested in determining the dependence of the hydrodynamic added-mass coefficient and the asymmetric pressure (suction) force exerted on the body due to external flow disturbances such as nearby planar boundaries or flow producing mechanisms (singularities) simulating for example a propulsive system.

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利用椭球谐波的正交各向异性流体力学

应用lam函数和椭球次谐波分析了具有三个相互垂直对称平面(正交各向异性形状)的刚体在受限介质(壁面、沟道等)中的流体动力学(无粘流体和无旋流)。为此，提出了一种计算任意阶次椭球谐波的通用数值格式。为了证明该方法的通用性，它可能在数学物理的许多实际应用中是有用的，我们选择在这里解析地处理三轴刚性椭球体容器在刚性壁附近或沿着二维通道中心稳定移动的情况。自由表面效应被忽略，我们主要感兴趣的是确定流体动力附加质量系数和施加在物体上的非对称压力(吸力)力的依赖关系，这是由于外部流动干扰，如附近的平面边界或流动产生机制(奇点)模拟，例如推进系统。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2015 Second International Conference on Mathematics and Computers in Sciences and in Industry (MCSI)

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