1) ship mooring force
船舶系缆力
1.
Discussion on application condition of the formula of ship mooring force of lock approach;
船闸引航道船舶系缆力计算公式应用条件的探讨
4) Marine power system
船舶电力系统
1.
On the basis of feasibility research of energy-saving technology of reducing frequency and voltage,the floating frequency and voltage energy-saving controller of marine power system is designed in the paper.
基于船舶电力系统降频降压节能技术可行性研究,设计出船舶电力系统浮动频压节能控制器,实现了全船用电设备的总体节能。
2.
In order to solve calculation problem of the reliability and maintainability of marine power system,with the basic model of the system s main operating way,an analysis method of the system reliability and maintainability based on Markov process is proposed.
针对船舶电力系统的可靠性、维修性计算问题,从该系统主要运行方式的基本模型出发,提出了基于马尔可夫过程的船舶电力系统可靠性、维修性分析方法,建立了船舶电力系统可靠性、维修性的数学模型,推导出船舶电力系统可用度与可靠度的表达式,并给出了在船舶电站控制系统中的一个工程应用实例。
3.
Therefore it is come under the academia is paying attention to investigating the stability, reliability and security for marine power system running long time.
目前,船舶向着超大型化方向发展,电力推进型船舶也进入实质性应用阶段,从而使船舶电力系统的容量不断增大,船舶柴油发电机组的单机容量不断创出新高。
5) ship electric power system
船舶电力系统
1.
Brittleness evaluation of the ship electric power system based on the entropy theory;
基于脆性熵理论的船舶电力系统脆性评价
2.
Study on state assessment method of ship electric power system;
船舶电力系统状态评估方法研究
3.
Brittleness negative entropy analysis of ship electric power system based on game theory
基于博弈论的船舶电力系统脆性负熵流分析
6) ship power system
船舶电力系统
1.
Application of Kolmogorov entropy in reliability research of ship power system
Kolmogorov熵在船舶电力系统可靠性研究中的应用
2.
With the broad application of advance technology in ship power system, and its differences from the terrestrial power system, it is necessary to build up the model and simulation of ship power system.
随着新技术、新设备的广泛应用,由于全电力推进的船舶电力系统与陆地电力系统的差别,需要对全电力推进的船舶电力系统进行建模与数字仿真。
3.
The electrical capacity of ship generators is growing large, which impels ship power system more and more complex.
目前,船舶控制向着自动化和智能化的方向发展,发电机系统的容量不断增大,船舶电力系统越来越复杂,对船舶电力系统的研究也提出了更高的要求。
补充资料:系缆
1.系结船索。谓泊舟。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条