The dynamical behaviour of cylindrical structures in axial flow

Annals of Nuclear Science and Engineering Pub Date : 1974-02-01 DOI:10.1016/0302-2927(74)90055-5

M.P. Païdoussis

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引用次数: 32

Abstract

This is a review on the effect of axial flow on cylindrical structures. It is shown that axial flow may cause fluidelastic instabilities at sufficiently high flow velocities. However, for the range of flow velocities and other parameters pertaining to most industrial systems, the effect of purely axial, uniform steady flow is to damp free motions. Nevertheless, departures from such ideal flow conditions induce small amplitude vibration, termed sub-critical vibration. The underlying mechanism of this vibration is examined and the various means available for predicting its amplitude are discussed. These latter are either empirical or analytical (generally semi-empirical); the analytical methods are further classified into three categories accordingly as they postulate the vibration to be forced, parametric or self-excited. The measure of success achieved in predicting sub-critical vibration amplitude is discussed, and possible reasons for its being generally poor. At present, the amplitude may be predicted typically to within one order of magnitude.

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轴向流动中圆柱结构的动力特性

本文综述了轴向流动对圆柱结构的影响。结果表明，在足够高的流速下，轴向流动可能引起流体弹性失稳。然而，对于大多数工业系统的流速和其他参数范围，纯轴向均匀稳定流动的影响是抑制自由运动。然而，偏离这种理想流动条件会引起小振幅振动，称为亚临界振动。研究了这种振动的潜在机制，并讨论了预测其振幅的各种方法。后者要么是经验性的，要么是分析性的(通常是半经验性的);分析方法又相应地分为三类，它们假定振动为强迫振动、参数振动和自激振动。讨论了亚临界振动幅值预测成功的衡量标准，以及预测结果普遍较差的可能原因。目前，预测的幅度一般在一个数量级以内。

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Annals of Nuclear Science and Engineering

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