A laboratory on the configuration of electric power substation monitoring and control based on the SEL751A relay and an induction motor drive for a three phase power supply

2013 3rd Interdisciplinary Engineering Design Education Conference Pub Date : 2013-03-04 DOI:10.1109/IEDEC.2013.6526778

I. Singh, T. Wanyama

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引用次数: 2

Abstract

While some people are capable of learning by simply reading the subject matter, psychological research has shown that most people learn better through hands-on training. However, it is costly to use real-life electric power substation for training students in the designing and setting up of substation monitoring and control systems. Moreover, most software simulation based laboratories on substation monitoring and control, focus on determining the effects of abnormal conditions on the protection of the electrical network, as opposed to the configuring of the smart relays as well as the communication networks that support the monitoring and control of substations. This paper presents a relay configuration laboratory that utilizes a motor drive as a three phase power source, and a three phase induction motor as a load on a substation bus. The laboratory gives automation students an opportunity to configure a real life substation monitoring and control relay, without exposing them to the risk of working with high voltages that characterize electric power substations.

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一种基于SEL751A继电器和感应电机驱动为三相电源的实验室电力变电所监控配置

虽然有些人能够通过简单地阅读主题来学习，但心理学研究表明，大多数人通过实践训练学得更好。然而，使用实际的电力变电站来训练学生设计和设置变电站监控系统是非常昂贵的。此外，大多数基于变电站监测和控制的软件仿真实验室侧重于确定异常情况对电网保护的影响，而不是配置智能继电器以及支持变电站监测和控制的通信网络。本文介绍了一种继电器配置实验室，该实验室采用电机驱动作为三相电源，三相感应电机作为变电站母线上的负载。该实验室让自动化专业的学生有机会配置一个真实的变电站监测和控制继电器，而不会让他们暴露在高压下工作的风险中。高压是变电站的特点。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2013 3rd Interdisciplinary Engineering Design Education Conference

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