在放松管制的环境下,BBBC对几种经典控制器进行了调谐,实现了多区域自动生成控制

Nagendra Kumar, B. Tyagi, Vishal Kumar
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引用次数: 4

摘要

提出了一种多区域无管制电力系统的自动发电控制方案。首先在带再热涡轮和延迟的三个等热区上对几个控制器的性能进行了检验。进一步分析了非再热式和再热式不等四区水火发电系统控制器的有效性。在放松管制的环境下,考虑了负荷跟踪的各种市场交易。控制器增益通过使用一种最新的强大的进化计算技术来优化,这种技术被称为大爆炸大压缩(BBBC)技术。通过比较研究发现,积分(I)、比例积分(PI)、积分导数(ID)控制器均能提供相同的响应,而比例积分导数(PID)控制器的响应要好得多。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Multiarea automatic generation control using BBBC tuned several classical controllers in deregulated environment
This paper presents automatic generation control (AGC) scheme for deregulated multiarea power system. Initially the performance of the several controllers is checked on three equal thermal area with reheat turbine and delay. Further the effectiveness of controllers is also analyzed for unequal four area hydro-thermal power system with non-reheat and reheat turbines. Various market transactions have been considered for load following in deregulated environment. Controller gains are optimized by using a recent and powerful evolutionary computational technique called big bang big crunch (BBBC) technique. Investigations reveal on comparison that Integral (I), proportional-Integral (PI), Integral-Derivative (ID) all provide same response whereas Proportional-Integral-Derivative (PID) controller provides much better response.
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