摘要
为分析流体流动与圆柱簇运动之间复杂的流固耦合(FSI)作用,提出一种针对亚临界雷诺数下不同间距比和约束条件对串列三圆柱流致振动影响的研究。通过采用三维数值的计算方法,研究在雷诺数R_(e)=(2.6966~8.0899)×10^(4)、间距比L/D=1.7~5.0和约化速度U_(r)=3.67~11.0范围内的3个等尺寸串列圆柱的横向流致振动现象,通过对比无量纲振幅、频率、升力系数和捕获效率,分析串列三圆柱的流固耦合动态响应特性。研究发现:当间距比L/D=3,且上游圆柱固定不动时,中下游圆柱的振动效果最为强烈,此时上游圆柱振动锁定的区域明显变宽,并且在锁定区域内振幅明显高于其他间距工况,表明不同间距和约束条件布置时,多圆柱间的振动效应不同。
In order to analyze the complex fluid-structure coupling between fluid flow and the movement of cylindrical clusters,a new method is proposed in this paper to study the effects of different spacing ratios and constraints on the flow induced vibration of a series of three cylinders at subcritical Reynolds number is presented.The transverse flow induced vibration of three equidimensional series cylinders in the reynolds number range of 2.6966×10^(4) to 8.0899×10^(4),spacing ratio range of 1.7 to 5.0 and reduced velocity range of 3.67 to 11 is studied by using three-dimensional numerical method.By comparing dimensionless amplitude,frequency,lift coefficient and captured energy efficiency,the fluid-structure coupling dynamic response characteristics of a series of three cylinders are analyzed.It is found that when the spacing ratio at 3 and the upstream cylinder is fixed,the vibration effect of the middle and downstream cylinder is the strongest.At this time,the region of the upstream cylinder locked by vibration is obviously wider,and the amplitude in the locked region is significantly higher than that in other spacing conditions.It is shown that the vibration effects between multiple cylinders are different with different spacing and constraint conditions.
作者
贾姗姗
何海华
徐鹏
李贺
张媛
张兆德
Jia Shanshan;He Haihua;Xu Peng;Li He;Zhang Yuan;Zhang Zhaode(School of Naval Architecture and Maritime,Zhejiang Ocean University,Zhoushan 316022,China;Zhejiang Yangfan General-use Machinery Manufacturing Co.,Ltd.,Zhoushan 316000,China;College of Mechanical and Marine Engineering,Beibu Gulf University,Qinzhou 535011,China)
出处
《太阳能学报》
北大核心
2025年第4期706-712,共7页
Acta Energiae Solaris Sinica
基金
广西科技重大专项(桂科AA22068105)。
关键词
海流能
圆柱
动力响应
计算流体力学
流致振动
能量捕获
ocean current energy
circular cylinders
dynamic response
computational fluid dynamics
fluid-induced vibration
energy capture
