本文提出供电系统短路电流及继电保护整定计算的算法。
In the paper a technique of the protection setting calculation and the short circuit current calculation for the power supply system is proposed.
提出了一种与数据库相结合的继电保护整定计算智能系统。
An intelligent system of relay protection setting calculation combined with database is introduced in this paper.
分析了制约继电保护整定计算及管理软件推广应用的主要原因。
The main reasons restricting the wider application of protection setting calculation and management software are analyzed.
本研究课题针对电力系统主设备的继电保护整定计算开发实用软件。
The thesis develops the practical relay coordination software for main equipments of power system.
继电保护整定计算是发电厂、变电站电气设备安全运行的基础工作。
The protective relay setting calculation is the safe operation foundation of the electrical equipments in the power plants and transformer substations.
将模式的思想引入电力系统继电保护整定计算软件开发,实现了基于模式的自定义继电保护装置整定计算软件。
The idea of pattern is introduced into the development of the relay device coordination software, which helps to design the new self-defined relay device coordination system.
为了提高继电保护整定计算软件的开发效率和质量,在开发“继电保护整定计算一体化系统”时采用了RUP方法。
In order to raising the efficiency and quality in development of relay setting calculation software, we used RUP to developing Protection Device Integrative Coordination System.
进行了简单的实例分析,该方法已应用在地区电网继电保护整定计算中,由实际电网参数库生成了整定所需的短路计算数据。
The method is applied in relaying protection calculation, in which the data for short current calculation are generated from actual power network database.
输电线路的零序参数尤其是多回互感线路的零序参数是电力系统继电保护整定计算需要的重要参数,所以其准确测量具有重要意义。
The zero-sequence parameter of transmission lines especially of transmission lines with mutual inductances is of great important in the relay protection setting calculation of power system.
输电线路的零序参数尤其是多回互感线路的零序参数是电力系统继电保护整定计算需要的重要参数,所以其准确测量具有重要意义。
The incremental method, differential equation method and integral equation method are three main methods in zero-sequence parameters on-line measurement of transmission lines with mutual inductance.
提出以通用算法映射原理开发继电保护面向装置整定计算系统开发的新思路。
A new idea for developing the equipment-oriented setting calculation system of relay protection based on "general algorithm mapping principle" is proposed.
所做工作是该变压器的设计、运行特性分析、短路计算及继电保护的配置与整定计算的基础。
What's studied in this paper lays a theoretical foundation for the design, operation performance analysis, short circuit analysis and protection scheme of this transformer.
该方法既适用于大电网继电保护离线并行整定计算又适用于在线并行整定计算。
The proposed method can be used both on-line and off-line in the relay parallel setting and coordination of a large-scale power system.
主设备保护整定计算是发电厂变电站继电保护工作的主要内容。
Relay protection setting calculation for main equipment is an important part of applying protection in power plants and substations.
因此该系统还为下一步的故障计算、整定计算以及仿真提供了数据接口,实现故障分析、继电保护运行、计算和管理等各项任务的自动化。
Therefore the system also offering the data interface for the setting calculation, fault calculation, and emulation module, realized the automation of power system.
主设备保护整定计算是发电厂继电保护工作的重要内容。
Calculating Settings of relay for main equipment is an important part of applying protection in power plants.
主设备保护整定计算是发电厂继电保护工作的重要内容。
Calculating Settings of relay for main equipment is an important part of applying protection in power plants.
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