Rating Reduction of Static Compensator for Voltage Control of Three-Phase Self-Excited Induction Generator

B. Singh, Madhusudan, V. Verma, A. K. Tandon
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引用次数: 9

Abstract

This paper describes the use of series capacitor in rating reduction of static compensator (STATCOM) for voltage regulation of three-phase self-excited induction generator (SEIG). A SEIG driven through a constant speed prime mover such as gasoline engine requires an appropriate combination of shunt and series capacitors to improve its voltage regulation under varying load conditions. Inclusion of fixed value of series capacitor provide additional VARs with increasing load to enhance the voltage regulation of the SEIG. However, the SEIG being a weak power supply system with limited kVA experiences large voltage dip with variable output power and fixed excitation in stand-alone applications. The problem of voltage dip arising from varying loads is reduced with use of STATCOM along with fixed excitation. The shunt excitation capacitor needs to supply the reactive power of demand of SEIG to generate rated voltage at no-load. In the present study the transient performance of series capacitor compensated SEIG-STATCOM system has been analyzed through simulation in MATLAB/Simulink environment. The simulation results have revealed that with inclusion of series capacitors along with STATCOM improves the voltage regulation of SEIG under varying loads. Moreover, the use of fixed value of series capacitor has resulted in significant reduction in the rating of STATCOM
三相自励感应发电机电压控制中静态补偿器的额定降低
本文介绍了在三相自励感应发电机(SEIG)电压调节中,串联电容在静态补偿器(STATCOM)额定降额定值中的应用。通过等速原动机(如汽油发动机)驱动的SEIG需要适当的并联和串联电容器组合,以改善其在不同负载条件下的电压调节。固定值串联电容的加入为负载增加提供了附加的var,增强了SEIG的电压调节能力。然而,SEIG作为一个有限千伏安的弱供电系统,在单机应用中,在变输出功率和固定励磁的情况下,会出现较大的电压降。在固定励磁的情况下,采用STATCOM系统可以减少因负载变化引起的电压下降问题。并联励磁电容器需要提供SEIG所需的无功功率,以在空载时产生额定电压。本文在MATLAB/Simulink环境下对串联电容补偿的SEIG-STATCOM系统的暂态性能进行了仿真分析。仿真结果表明,在STATCOM中加入串联电容可以改善SEIG在变负载下的电压调节效果。此外,固定值串联电容的使用导致STATCOM的额定值显著降低
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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