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引用本文:陈俊池,刘祚时,陈俊华,陈炫光.基于CFD模拟的单点系泊船型网箱浮架结构分析与设计[J].海洋科学,2020,44(4):116-123.
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基于CFD模拟的单点系泊船型网箱浮架结构分析与设计
陈俊池1, 刘祚时1, 陈俊华2, 陈炫光3
1.江西理工大学机电工程学院, 江西 赣州 341000;2.浙江大学宁波理工学院机电与能源工程学院, 浙江 宁波 315100;3.宁波大学 机械工程与力学学院, 浙江 宁波 315211
摘要:
针对单点系泊(SPM)网箱系泊力大于传统网箱,离岸环境承受风浪时风险更高的问题,研究设计了一种相较传统圆形网箱拥有更小系泊力的船型网箱,运用正交原理制定了三因素三水平的试验方案,对网箱浮架进行了计算机数值模拟,分析网箱在波流共同作用下的水动力特性变化。研究表明,在兼顾经济成本与网箱安全性的条件下,长24 m,宽9 m,头部角度为60°的网箱浮架具有较优良的水动力性能和相对较低的养殖成本。该网箱系统能随着潮流改变方向而在锚点周围移动,从而极大减小网箱底部的养殖残渣堆积并降低锚固安装成本,可为我国深水网箱的发展提供一定的理论参考依据。
关键词:  抗风浪船型网箱  单点系泊  水动力分析  结构设计
DOI:10.11759/hykx20190715003
分类号:S953.4
基金项目:宁波市重大科技攻关项目(2015C110015);宁波市科技计划项目(2015C50061)
Structural analysis and design of single point mooring cage floating frame based on CFD simulation
CHEN Jun-chi1, LIU Zuo-shi1, CHEN Jun-hua2, CHEN Xuan-guang3
1.School of Mechanical and Electrical Engineering, Jiangxi University of Science and Technology, Ganzhou 341000, China;2.College of Mechatronics and Energy Engineering, Ningbo Institute of Technology, Zhejiang University, Ningbo 315100, China;3.School of Mechanical Engineering and Mechanics, Ningbo University, Ningbo 315211, China
Abstract:
The single point mooring (SPM) cage system has attracted considerable attention because of its ability to move around anchor points with the current in different directions. This mobility can considerably reduce the accumulation of aquaculture residue at the bottom of the cage and reduce the installation cost of anchorage. However, because the mooring force of the SPM cage is greater than that of a conventional circular cage, the risk of the SPM cage system is very high when exposed to wind and waves. A ship-type of a floating frame with a mooring force that was smaller than that of a conventional circular cage was designed to solve this problem along with a three- factor and three-level test scheme that was formulated based on the orthogonal principle. To analyze the changes of the hydrodynamic characteristics of the cage when exposed to both waves and current, computer numerical simulation of the cage floating frame was conducted. The results show that the stress of the cage will initially decrease followed by an increase that is caused by the length increasing when the width of the floating frame is constant. The stress of the cage will continue to amplify with the increase of the width of the floating frame and the angle of the head. Taking economic costs and cage safety into consideration, the analysis shows that a cage floating frame with a length of 24 m, a width of 9 m, and a head angle of 60° has excellent hydrodynamic performance and a relatively low breeding cost. This provides a solution to address to the risk faced by the SPM deep-water cage and provides a theoretical reference for developing deep-water cages in China.
Key words:  anti-wave ship cage  single-point mooring  hydrodynamic analysis  structural design
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