mooring line

英 [ˈmɔːrɪŋ laɪn]

美 [ˈmʊrɪŋ laɪn]

网络系缆; 缆绳; 系船缆; 系缆索; 系泊缆

英英释义

noun

(nautical) a line that holds an object (especially a boat) in place
Synonym:mooring

双语例句

This paper investigates the effect of third-order terms of the expression of hydrodynamic force acting on the mooring line on the result of perturbation method used in the mooring line dynamic analysis.
本文研究了作用在锚泊线上的水动力表达式中三阶项对锚泊线动力分析的影响。
Numerical example showed that the parametric equation is rational to describe the shape of mooring line.
算例表明，描述锚链线形状的参数方程是合理的。
The influence of different current velocities and mooring line lengths on the dynamic response of vessels and mooring force was investigated.
探讨了不同来流速度和系缆长度对于船只的动力学响应和系缆力的影响。
In this paper, the author choose a semi submersible, which will be set up in South China Sea, for truncation design based on static equivalence. Then the truncated single mooring line and truncated mooring system are used for dynamic difference studies.
基于动力特性上的差异研究，本文选取某座即将工作于中国南海的半潜平台进行基于静力相似截断系泊系统设计，对截断系泊缆，截断系泊系统进行了一系列动态差异研究。
The solutions are related to first-order responses of mooring line and second-order floating structure oscillation, respectively.
其解分别与锚链的一阶运动响应和浮式结构物的二阶运动有关。
While mooring line directly affect the performance of mooring system reliability, to reasonably select and design the lines has become the focus of the Spar platform mooring system design.
锚泊线的性能直接影响到锚泊系统的可靠性，因此它的合理选择及设计成为Spar平台锚泊系统设计的重点。
Wave period greatly influence mooring line forces and it increase with wave period.
波浪周期对船舶系缆力的影响比较大，系缆力随着波浪周期的增大而增大。
The Effect of Third-Order Perturbation on the Result of the Mooring Line Dynamic Analysis
三阶摄动对锚泊线动力分析的影响
Firstly, analyze and compare the material and character of mooring line.
分析比较锚泊线应用的具体成分及其特性。
Mooring positioning system performance depends mainly on the ocean environmental conditions, the environmental loads acting on floating structure and mooring lines, the material and dynamic performance of mooring line, the arrangement of mooring lines, water depth and other factors.
锚泊定位系统性能主要取决于海洋环境条件、浮式结构物和锚泊线所受的环境荷载作用、锚泊线的材料及其动力性能、锚泊线布置形式、海水水深等因素的影响。