Abstract
This paper presents an effective hybrid optimization technique based on a chaotic sine cosine algorithm (CSCA) and pattern search (PS) for the coordinated design of power system stabilizers (PSSs) and static VAR compensator (SVC)-based controllers. For this purpose, the design problem is considered as an optimization problem whose decision variables are the controllers’ parameters. Due to the nonlinearities of large, interconnected power systems, methods capable of handling any nonlinearity of power networks are preferable. In this regard, a nonlinear time domain-based objective function was used. Then, the proposed hybrid chaotic sine cosine pattern search (hCSC-PS) algorithm was employed for solving this optimization problem. The proposed method employed the global search ability of SCA and the local search ability of PS. The performance of the new hCSC-PS was investigated using a set of benchmark functions, and then the results were compared with those of the standard SCA and some other methods from the literature. In addition, a case study from the literature is considered to evaluate the efficiency of the proposed hCSC-PS for the coordinated design of controllers in the power system. PSSs and additional SVC controllers are being considered to demonstrate the feasibility of the new technique. In order to ensure the robustness and performance of the proposed controller, the objective function is evaluated for various extreme loading conditions and system configurations. The numerical investigations show that the new approach may provide better optimal damping and outperforms previous methods. Nonlinear time-domain simulation shows the superiority of the proposed controller and its ability in providing efficient damping of electromechanical oscillations.
Highlights
The stability of power systems has become a key study area as a result of the integration of power systems
A novel hybrid optimization algorithm called hCSC-pattern search (PS) is suggested for the simultaneous coordinated design of Power system stabilizers (PSSs) and static VAR compensator (SVC) controllers in multi-machine power system
The performance comparison of the proposed hybrid chaotic sine cosine pattern search (hCSC-PS) algorithm on a set of benchmark functions reveals that the proposed method outperforms the standard sine-cosine algorithm (SCA) and other algorithms
Summary
The stability of power systems has become a key study area as a result of the integration of power systems. One of the well-known shunt FACTS devices, named static VAR compensator (SVC), is considered a competent device to provide adequate damping of the LFOs in modern power systems after the apparition of disturbances [4] It has the capability of regulating bus voltage at its terminals by injecting controllable reactive power into the power network through the bus where it is connected. Other proprieties of the power system can be improved, such as the dynamic control of power flow, steady-state stability limits, and damping of electromechanical oscillations [5] Most of these studies have been focused on the coordinated design of SVC and PSS controllers. To validate the efficacy of the new hybrid approach, a set of benchmark functions as well as controller design problems of a multi-machine power system are studied.
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