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- Title
SSR Mitigation in Power System by LQR Control of nearby DFIG.
- Authors
Patel, Nilaykumar A.; Patel, Khush N.
- Abstract
This study examines the influence of a direct-power control technique for a DFIG (Doubly-Fed Induction Generator)-based wind generator on sub-synchronous resonance (SSR). A series capacitor of a transmission line will exchange power with the synchronous generator when it runs via an SSR. DFIG includes power converters built into its rotor circuit, allowing for quick control of both the active and reactive power of the device. This is made possible by the rotor converter circuit's fast IGBT switching. Examining the ability of the LQR (Linear Quadratic Regulator) on the DFIG to provide the required active power and reactive power during SSR is the primary goal of this work. Additional DFIG is added to the test system in addition to the original test system, and during SSR its performance is evaluated using an additional control signal that is obtained from the synchronous generator and supplied to DFIG through LQR. The analysis of SSR was completed based on eigenvalue analysis utilizing the D-Q model test system and transient simulation using MATLAB Simulink. Independent model control is used to control the DFIG rotor converter that dampens multimodal SSR oscillations. The test system was developed using the IEEE first benchmark model's adopted system.
- Subjects
SUBSYNCHRONOUS resonance; REACTIVE power; TEST systems; POWER semiconductor switches; SYNCHRONOUS generators; ELECTRIC lines; INDUCTION generators
- Publication
Grenze International Journal of Engineering & Technology (GIJET), 2024, Vol 10, Issue 1, p70
- ISSN
2395-5287
- Publication type
Article