IEEE PSS4B implementation in Static Excitation System and Hardware-in-Loop Testing with RTDS

2020 IEEE International Conference on Power Systems Technology (POWERCON) Pub Date : 2020-09-14 DOI:10.1109/POWERCON48463.2020.9230541

Samya Deb Bhattacharya, G. Gurrala, A. Kar, V. Reddy, K. S. Vyas, Dhanunjayudu Nasika

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引用次数: 2

Abstract

Significant integration of renewable energy sources with conventional thermal, hydro and nuclear power poses several operational challenges to grid operators. Small signal instability caused by electro-mechanical oscillatory modes is one such example. Oscillations of considerable magnitude are being frequently witnessed in India by the operators in recent years. Power System Stabilizers (PSS) play an important role in the interconnected systems to damp out the spurious oscillations. Multi band power system stabilizer (MB-PSS), also known as IEEE-PSS4B, can be more effective than the conventional speed input and dual input PSS. In this paper implementation of IEEE-PSS4B in the BHEL static excitation equipment (SEE) controller is discussed. The effectiveness of the PSS4B is tested using hardware-in-loop testing with RTDS. A single machine infinite bus system and a 5 generator 10 bus system is simulated in RTDS. One of the generator's excitation system is replaced with SEE hardware in a closed loop configuration. The real-time simulation results under small and large disturbances are provided to show the effectiveness of the PSS4B functionality enabled in the SEE.

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IEEE PSS4B在静态励磁系统中的实现及RTDS硬件在环测试

可再生能源与传统的热能、水力和核能的显著整合给电网运营商带来了一些运营挑战。由机电振荡模式引起的小信号不稳定就是这样一个例子。近年来，操作员在印度经常看到相当大的振荡。电力系统稳定器在互联系统中起着抑制杂散振荡的重要作用。多频段电力系统稳定器(MB-PSS)，也称为IEEE-PSS4B，可以比传统的速度输入和双输入PSS更有效。本文讨论了IEEE-PSS4B在BHEL静态励磁设备(SEE)控制器中的实现。通过RTDS硬件在环测试对PSS4B的有效性进行了测试。在RTDS中对单机无限母线系统和5发10母线系统进行了仿真。其中一个发电机的励磁系统被替换为SEE硬件的闭环配置。给出了在小干扰和大干扰下的实时仿真结果，以显示在SEE中启用PSS4B功能的有效性。

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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2020 IEEE International Conference on Power Systems Technology (POWERCON)

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