A. Priyadi, Talitha Pusnita Sari, I. Hafidz, M. Pujiantara, N. Yorino, M. Purnomo
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引用次数: 5
摘要
由于发电机保护方案的重要性,暂态稳定分析成为本文研究的重点。在获得CCT的众多方法中,有一种是临界轨迹法,它可以在发电机失同步前通过仿真确定转子角度轨迹。此外,由于变量的数量与方程的数量相等,该方法具有更快的计算速度。为了提高系统的暂态稳定性,在系统中安装了超级电容器储能系统(Super Capacitor Energy Storage, SCES)。该装置以动能形式储存能量,然后注入系统。采用IEEE 3机9总线系统对该方法进行了测试。仿真结果表明,该装置可提供更高的CCT,使系统在平均范围内的运行速度提高0.016秒。结果表明,该方法可以通过在系统中安装SCES来提高系统的暂态稳定性。
Losing Synchronism Technique based on Critical Trajectory Method for Obtaining the CCT with Installing SCES
Transient stability analysis become the main focus in this paper because of the importance of generator protection scheme. One of many methods to obtain CCT is critical trajectory method which can be used to determine rotor angle trajectory through a simulation before the generator loss of synchronism. Moreover, this method has a faster calculation due to the number of variables are equal with number of equation. In order to improve transient stability, Super Capacitor Energy Storage (SCES) is installed in the system. This unit stores energy in energy kinetic form that will injected in the system. IEEE 3-machine 9-bus system is used to tested this proposed method. From simulation result, the installment SCES can give higher CCT which leads to more robust systems operation in average range time 0.016 second faster. It can be concluded that the propose method can improve transient stability by installing SCES in the system.
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