The coupled vibrations of a rectangular frame and a flexible net subjected to waves and currents

IF 3.6 2区 农林科学 Q2 AGRICULTURAL ENGINEERING
Wude Xie , Zhenlin Liang , Zhaoyang Jiang , Yujiao Zhen
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引用次数: 0

Abstract

Aquaculture cages are commonly used to culture fish in the open sea. The main structure of these cages consists of steel pipe frames. The frames are covered with flexible nets. Under the action of waves and currents, the frames and flexible nets may vibrate simultaneously. There is a dynamic interaction between them. In this paper, a rectangular frame is modeled using the Euler-Bernoulli beam theory, and the flexible net is simulated using the lumped-mass method. The hydrodynamic forces on the frame and net caused by waves and currents are calculated using Morison’s equation. A three-dimensional dynamic coupled model of the frame and flexible net is developed. The dynamic model is solved using numerical methods. After verifying the dynamic model, detailed analysis is conducted on the dynamic interactions between the frame and flexible net. The results show that under the action of waves and currents, the vibration amplitudes of the frame and flexible net become larger due to the interactions between them, while their vibration frequencies seldom change.

矩形框架和柔性网在波浪和水流作用下的耦合振动
水产养殖网箱通常用于在公海养殖鱼类。这些网箱的主要结构由钢管框架组成。框架上覆盖着柔性网。在海浪和水流的作用下,框架和柔性网可能同时振动。它们之间存在动态相互作用。本文使用欧拉-伯努利梁理论对矩形框架进行建模,并使用总质量法对柔性网进行模拟。利用莫里森方程计算了波浪和水流对框架和网造成的流体动力。建立了框架和柔性网的三维动态耦合模型。该动态模型采用数值方法求解。在验证动态模型后,对框架和柔性网之间的动态相互作用进行了详细分析。结果表明,在波浪和水流的作用下,框架和柔性网的振动幅度会因它们之间的相互作用而变大,而它们的振动频率却很少发生变化。
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来源期刊
Aquacultural Engineering
Aquacultural Engineering 农林科学-农业工程
CiteScore
8.60
自引率
10.00%
发文量
63
审稿时长
>24 weeks
期刊介绍: Aquacultural Engineering is concerned with the design and development of effective aquacultural systems for marine and freshwater facilities. The journal aims to apply the knowledge gained from basic research which potentially can be translated into commercial operations. Problems of scale-up and application of research data involve many parameters, both physical and biological, making it difficult to anticipate the interaction between the unit processes and the cultured animals. Aquacultural Engineering aims to develop this bioengineering interface for aquaculture and welcomes contributions in the following areas: – Engineering and design of aquaculture facilities – Engineering-based research studies – Construction experience and techniques – In-service experience, commissioning, operation – Materials selection and their uses – Quantification of biological data and constraints
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