随着深海能源的开发,浮式生产设施具有众多的优点,被广泛应用,其关键是锚泊系统。
With the development of deep sea energy, many functions of FPSO(Floating Production, Storage and Offloading System) have been widely applied.
本文对于给定的FPSO,首先构造了全锚泊系统、全动力定位系统及由其交叉组合而成的多种定位方案。
For a given FPSO, some station keeping plans are designed first in this paper, which based on the mooring system or dynamic positioning (DP) system technology.
移动式海洋平台锚泊系统通常用锚索或锚链等多种成分合成的锚泊线,因而涉及参数较多给设计分析带来不便。
Multi-component mooring lines compose mooring systems used by Mobile Drilling Platforms, while versatile parameters bring difficulties to design work.
为了保证海洋平台等长期在海上作业的漂浮物在大多数海况下可以正常工作,海洋结构物的锚泊系统的设计尤其重要。
In order to guarantee the platform and other floating things working under the majority sea condition, the design of the mooring system of sea structure is especially important.
在深水及恶劣环境海域,锚泊系统作为平台或钻井船定位装置,显得至关重要。在深水钻井中,锚泊系统的锚链长,尺寸大,对应的强度也大。
In the deep water and bad surrounding ocean, it is very important that the anchor system severed as the located equipment of the platform or drilling boat.
本文通过对锚泊非线性水动力系统进行分析,首次将两种方法取得的频率响应函数结果进行对比。
In this paper, the frequency response functions obtained by using these two methods are first compared through analysis of non-linear mooring system.
文摘:讨论了单点系泊在海洋环境条件作用下的运动特征以及影响单点系泊系统锚泊线载荷的因素。
Abstract: the movement characters under the ocean environment condition for single point mooring system (SPM) and the factors affect the anchor mooring linear load of SPM a re discussed in this paper.
根据带控制变量的非线性自回归滑动平均(NARMAX)模型理论,建立了锚泊线的系统模型。
A system model of a mooring line was constructed according to the NARMAX model theory.
介绍一个四点锚泊定位系统,是对原日本设计的四点锚泊定位系统的改进设计。
This paper introduces a four points anchor mooring positioning system which improves the original Japanese design of the same system.
为满足这一要求,着重介绍了用以微处理机为基础的集散型控制系统(DCS)对多点锚泊定位实行控制可以达到安全、可靠、精确。
To meet the requirements, a dispersed control system (DCS) based on PC computer is developed to perform control to the multi-point anchoring positioning, with safe, reliable and accurate control.
为满足这一要求,着重介绍了用以微处理机为基础的集散型控制系统(DCS)对多点锚泊定位实行控制可以达到安全、可靠、精确。
To meet the requirements, a dispersed control system (DCS) based on PC computer is developed to perform control to the multi-point anchoring positioning, with safe, reliable and accurate control.
应用推荐