Abstract

Recently, fuzzy logic control has widely received attention in various power system applications, despite difficulties of obtaining its control rules and membership functions. Nowadays, power systems consist of multiple areas where load variations with abrupt changes always exist, and proper control rules and membership functions could hardly be achieved. This paper proposes a practical design of fuzzy logic controllers for superconducting magnetic energy storage (SMES) based on a wide area synchronized phasor measurement for enhancing the stability of an interconnected power system. Moreover, a heuristic method is applied for determining control rules and membership functions. The estimated model is determined via a simplified oscillation model for detection and assessment of an approximated inter-area oscillation mode. Finally, some simulation studies based on a two-area four-machine power system are carried out to examine the performance and effectiveness of the designed fuzzy SMES controller.

Submitted: March 31, 2008 · Accepted: April 2, 2008 · Published: April 23, 2008

Recommended Citation

Dechanupaprittha, Sanchai; Hongesombut, Komsan; Watanabe, Masayuki; Mitani, Yasunori; and Ngamroo, Issarachai (2008) "A Practical Design of a Fuzzy SMES Controller Based on Synchronized Phasor Measurement for Interconnected Power Systems," International Journal of Emerging Electric Power Systems: Vol. 9 : Iss. 3, Article 5.
Available at: http://www.bepress.com/ijeeps/vol9/iss3/art5