Optimal AGC regulators for power systems under restructured configuration with hybrid ESS
Ram Naresh Mishra, Narendra Kumar, Mohd Zuhaib, Marwan Ahmad Abdullah Sufyan

TL;DR
This paper proposes a new control method using a hybrid energy storage system to improve power system reliability and frequency response in restructured electricity markets.
Contribution
A novel CSOA-based hybrid ESS control technique combining FOPID and polar fuzzy controllers for restructured power systems is introduced.
Findings
The proposed controller improves frequency responses by 15.59% and 21.83% for Area-1 and Area-2, respectively.
It enhances tie-line power variation response under contract violation by 27.16%.
The control scheme outperforms existing methods with the lowest cost function and reliable performance under varying loads.
Abstract
Several new rivals are entering the market as a result of the global restructuring of the electric power sector, which is also intensifying competition among existing market players. Better services, greater choices, and less expensive power are all intended to benefit consumers. For such systems to be more reliable, new control techniques with hybrid ESS are crucial. The CSOA-based hybrid ESS for a restructured T-G-S power system combines a polar fuzzy controller (PFC) with an FOPID controller. Testing is done on this controller’s resilience with CTD, random load demand, and parameter uncertainty. Additionally, a reconstructed N-G-S system is used to assess the viability of the suggested controller. A CSOA-based combined FOPID controller and polar fuzzy controller using hybrid ESS can improve frequency responses for Area-1 and Area-2 by 15.59% and 21.83%, respectively, and enhance the…
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Taxonomy
TopicsFrequency Control in Power Systems · Microgrid Control and Optimization · Power System Optimization and Stability
