Çelik Emre
Department of Electrical and Electronics Engineering, Engineering Faculty, Düzce University, Düzce, Turkey.
ISA Trans. 2024 Oct;153:364-383. doi: 10.1016/j.isatra.2024.07.038. Epub 2024 Aug 2.
Load frequency regulation (LFR) is an indispensable scheme in planning electrical power production to provide consumers with stable, reliable and uninterrupted power. In the face of complicated power system (PS) structures with increasing and intricate power demand, new controllers that offer not only good performance, but also easy commissioning in practice are required. To this end, this research introduces an exponential PID (EXP-PID) controller as a new control scheme to ameliorate the LFR performance of PSs. This controller is simple to design and has a nonlinear feature inherited from two tunable exponential functions, which are placed in front of the PID controller and act on the error signal and its time derivative individually. To achieve the utmost performance, the EXP-PID controller's parameters are procured by a corrected variant of the snake optimizer (co-SO). To validate the proposed control scheme, various single-/multi-area single-/multi-source PSs favored in the area are considered as test benches. A thorough comparison with the state-of-the-art approaches is performed to disclose the true efficacy of our proposal. Among the rivals, co-SO tuned EXP-PID controller, despite its simplicity, is found to render credible and promising performance in mitigating frequency and tie-line power deviations effectively.
负荷频率调节(LFR)是电力生产规划中不可或缺的方案,旨在为消费者提供稳定、可靠且不间断的电力。面对日益复杂且电力需求错综复杂的电力系统(PS)结构,需要新型控制器,其不仅要具备良好的性能,还要在实际应用中易于调试。为此,本研究引入指数比例积分微分(EXP-PID)控制器作为一种新的控制方案,以改善电力系统的负荷频率调节性能。该控制器设计简单,具有从两个可调指数函数继承而来的非线性特性,这两个指数函数置于PID控制器之前,分别作用于误差信号及其时间导数。为实现最佳性能,EXP-PID控制器的参数通过蛇形优化器的修正变体(co-SO)来获取。为验证所提出的控制方案,将该地区常用的各种单/多区域单/多源电力系统作为测试平台。与现有最先进方法进行了全面比较,以揭示我们方案的真正效果。在竞争对手中,尽管co-SO调谐的EXP-PID控制器很简单,但它在有效减轻频率和联络线功率偏差方面表现出可靠且有前景的性能。
