船舶电站频率的稳定性主要取决于柴油机调速系统的转速响应特性。
The frequency stability of a ship power station is decided by the speed response characteristic of diesel engine speed regulation system.
本文以船舶电站的并车过程为研究对象,设计了船舶电站自动并车控制系统。
This paper is focused on the process of automatic switching and gives a design of the automatic switching control system of ship power station.
船舶电站电压的稳定性主要取决于同步发电机调压系统的动态特性。
The voltage stability of a ship power station is decided by the dynamic characteristic of its synchronous generator voltage regulation system.
船舶电力系统频率的稳定性主要取决于船舶电站柴油机调速系统的转速响应特性。
The frequency stability of a ship power system is determined by the speed response characteristic of the diesel engine speed regulation system in the ship power station.
船舶电站自动控制系统涉及面相当广。
Automatic Marine generator control system covers a large field.
在此基础上完成了船舶电站及电力系统数学模型的建立。
On this basis accomplish the foundation of the model of the power station.
船舶电站是船舶电力系统的核心,对船舶的安全航行和经济效益有重要的影响。
The ship power station is the heart of electric power system on board, effecting on the safety at sea and economical benefit of the ships.
船舶电站频率的稳定性主要取决于柴油机调速系统的转速响应特性。
The frequency stability of a shipboard power station is decided by the speed response characteristics of its diesel engine speed governing system.
本文根据船舶电站的特点,设计了船舶电站的微型机控制系统,探讨了微型机控制船舶电站的可靠性方面的一些问题。
In accordance with the specific features of a Marine power station, a microcomputer control system is designed, and some questions of the reliability of the control system are discussed.
对提高船舶电站自动控制系统中单片机的适应性和软件硬件可靠性提出了方法。
The paper points out the methods concerned with improving the adaptability of single chip-computer and the reliability of software and hardware of the system.
船舶电站是船舶电力系统的核心,对船舶的安全航行和经济效益有重要的影响。
Ship power Station is the heart of the ship power system on the ship's safe navigation and economic benefits have an important impact.
船舶电站电压的稳定性主要取决于同步发电机调压系统的电压响应特性。
The voltage stability of a marine power station depends on the voltage response characteristics of voltage regulating system of synchronous generator( s) of the station.
采用先进的工业控制技术和计算机技术对船舶电站自动化系统进行设计,可以更好地实现船舶电站可靠运行。
With the automatical system designing of ship power station by means of advanced industry control and computor technology, the ship power station may run more reliably.
该系统由主机遥控、自动电站、油水与压载自控、船舶浮态自控、监测调控及轮机管理中心等子系统组成。
The system includes main engine remote control, generating plant automatic control, level monitor, machinery space monitor, auxiliary machineries regulation, management centre, etc.
最后,以实例说明了其在船舶电站控制系统中的工程应用。
Finally, an example to demonstrate the engineering application of automatic control system in the Marine power station is given.
基于离散滑模控制理论设计了船舶电站双机并联系统的稳定和有功分配控制器。
The discrete time sliding mode controller design for stability and active power distribution of a two-generator parallel running system is discussed in this paper.
船舶电站是船舶电力系统的重要组成部分。
Marine power station is an important part of Marine electric power system.
船舶电力系统电压的稳定性主要取决于船舶电站同步发电机调压系统的电压响应特性。
The voltage stability of a ship's power system is determined by the dynamic characteristic of the synchronous generator voltage regulation system in the ship's power station.
其次,研制船舶电力系统训练模拟器和船舶电站评估操作计算机考试模拟器。
As a result, a whole set of mathematical models for the marine power station system are developed.
而且NK同时供应用于船舶运输、海上和陆上汽油装备、供电站和工业的空气压缩设备和空气净化系统。
Moreover NK supplies compressed air plants as well as air purification systems for working and control air applications used for shipping, offshore and onshore oil RIGS, power plants and industry.
接口是仿真系统中计算机和模拟船舶电站发电装置之间信息交换的部件,它使两者之间能很好地协同工作,每一个外设都要通过接口电路才能和主机相连。
The I/O interface circuit, as an information exchanging device, coordinates the work between the computer and the simulator. Each out equipment gains access to the computer through interface circuit.
通过船舶电站实验室运行验证,该系统有效地提高了电站的稳定性和可靠性。
Lab experiments show that the system improves effectively the reliability and stability of power station operation.
通过船舶电站实验室运行验证,该系统有效地提高了电站的稳定性和可靠性。
Lab experiments show that the system improves effectively the reliability and stability of power station operation.
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