Design of advanced voltage management system including manual operation mode via real-time simulation

S. Baek, Suchul Nam, Jiyoung Song, Jaegul Lee, Taekyun Kim, Jeonghoon Shin
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引用次数: 1

Abstract

This paper presents the design of the advanced voltage management system (AVMS) including manual operation mode in order to control reactive power generations in practical power system. The existing secondary voltage controller (SVC) has a demerit occurring large transient phenomenon shortly after the SVC begins to work. This malfunction results from the difference of the operation status before and after the SVC operates. For solving the problem and implementing the voltage control safely, the AVMS including the manual operation mode is developed by Korea Electric Power Corporation (KEPCO). As well as the AVMS overcomes the drawback, it can execute the coordination control of both continuous voltage controller (CVC) and discrete voltage controller (DVC). The CVC controls reactive power generation sources such as generator and FACTS devices which can generate reactive power continuously and linearly. Otherwise, the DVC controls the discrete reactive power sources such as switched shunt capacitors and reactors. The performances of the proposed AVMS are carried out by time domain simulation in the Jeju Island power system with real-time digital simulator (RTDS).
设计先进的电压管理系统,包括手动操作模式,通过实时仿真
本文设计了一种具有手动操作模式的先进电压管理系统(AVMS),以控制实际电力系统中的无功功率。现有的二次电压控制器(SVC)的缺点是在SVC开始工作后不久就会出现较大的暂态现象。该故障是SVC运行前后运行状态不一致造成的。为了解决这一问题并实现安全的电压控制,韩国电力公司开发了包括手动操作模式的AVMS。AVMS不仅克服了这一缺点,而且可以同时对连续电压控制器(CVC)和离散电压控制器(DVC)进行协调控制。CVC控制无功发电源,如发电机和FACTS设备,它们可以连续和线性地产生无功功率。否则,DVC控制离散无功电源,如开关并联电容器和电抗器。利用实时数字模拟器(RTDS)在济州岛电力系统中对所提出的AVMS进行了时域仿真。
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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