Robust controller design for load frequency control of non-minimum phase Hydro power plant using PSO enabled automated Quantitative Feedback Theory

• Published in: 2008 Annual IEEE India Conference Vol. 2; pp. 349 - 354
• Main Authors: Satpati, B., Bandyopadhyay, I., Das, G., Koley, C.
• Format: Conference Proceeding
• Language: English
• Published: IEEE 01.12.2008
• Subjects: Automatic control; Dynamic Model; Feedback; Frequency control; Frequency synthesizers; Hydro Power Plant; Load Frequency Control; Particle Swarm Optimization; Power generation; Power system dynamics; Power system modeling; Quantitative Feedback Theory; Robust control; Robust stability; Three-term control
• ISBN: 142443825X; 9781424438259
• ISSN: 2325-940X
• DOI: 10.1109/INDCON.2008.4768748

This paper presents the design of a robust PID controller for load frequency control of non-minimum phase hydro power plant using particle swarm optimization (PSO) enabled automated quantitative feedback theory (QFT). The plant model considered here is a dynamic model of power system that includes the turbine, governor, load and machine dynamics subjected to control the load frequency in accordance with power input to the governor. In the present contribution, a proposal is being presented to automate the loop shaping phase in QFT design method to synthesize a robust load frequency controller that can undertake the exact amount of plant uncertainty and can ensure a proper trade off between robust stability specifications and plant input disturbances over the entire range of frequencies. In this article the PSO technique has been employed to tune the controller automatically that can greatly reduce the computational effort compared to manual graphical techniques. It has also been demonstrated that this methodology not only automates loop-shaping but also improves design quality and, most usefully, improves the quality with a reduced order controller.