Abstract
The increasing pressure on the power system increases the complexity that is becoming a concern for the stability of the power system and mainly for transitory stability. To operate the system in the event of faults, Flexible AC Transmission System (FACTS) devices are used that provide opportunities to control power and vibrations damping. This paper deals with the two control strategies of the Unified Power Flow Controller (UPFC) to damping the system oscillations stability. The stability of the Multi-Machine Power System (MMPS) was analysed with the presence of UPFC. The first strategy is the traditional PI controller (PI-C) with UPFC, and the second strategy is the proposed Fuzzy Logic controller (FL-C) proposed for UPFC device along with PI controller. The MATLAB R2014a was used in all simulations. Based on the results, FL-C for UPFC device along with the PI controller has proven its superiority by has enhanced response to the system, thus minimized in the transitions overshoot and undershoot, and has lower ripple compared to traditional PI-C, both with and without UPFC.
Highlights
Power transmission networks have become narrower due to the increased demand for power, because of many stability problems such as overloading some transmission lines and over-voltage after a disturbance [1, 2]
In this paper, Unified Power Flow Controller (UPFC) is used as one of the most potent Flexible AC Transmission System (FACTS) devices because it has the feature of both series and parallel devices as controlling the flow of active and reactive power and is efficacious in dealing with the turbulences occurring within the electrical network [6,7,8]
This paper suggests a Fuzzy Logic controller (FL-C) along with a PI controller (PI-C) to improve the performance of UPFC in the event of a fault compared to the traditional PI controller with UPFC, especially for the overshoot, undershoot, and settling time
Summary
Power transmission networks have become narrower due to the increased demand for power, because of many stability problems such as overloading some transmission lines and over-voltage after a disturbance [1, 2].
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