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Article type: Research Article
Authors: Annapandi, P.; * | Banumathi, R. | Pratheeba, N.S. | Manuela, A. Amala
Affiliations: Electrical and Electronics Engineering, Francis Xavier Engineering College, Tirunelveli, India
Correspondence: [*] Corresponding author. Dr. P. Annapandi, Assistant Professor, Electrical and Electronics Engineering, Francis Xavier Engineering College, Tirunelveli, India. E-mail: annapandip0618@gmail.com.
Abstract: Due to the intermittent nature of renewable sources, the generation of power is varied which is the main problem in renewable energy system. Miss-matching between the power generation and load power causes a deviation from the desired voltage and frequency in power supply. Therefore, a new efficient smart grid system is required for an optimal power flow management. In this paper, a hybrid approach is presented for power flow management of HRES connected smart grid system. The novelty of the proposed approach is the combined execution of IHHO with SOA named as I2HOSOA technique. In the established work, the HHO is integrated by crossover and mutation function, it is known as IHHO. The main contribution of the proposed strategy is to control the power flow based on source and load side parameters variations. In the proposed approach, the control signals of the voltage source are developed by the IHHO based on the variety of power exchange between the source and load side. Similarly, the online control signals are located by the SOA procedure by utilizing the parallel execution against the active and reactive power varieties. The multi-objective function is shaped by the grid required active and reactive power varieties created based on accessible source power. Here, the control parameters of the power controller are enhanced by the proposed technique based control models in light of the power flow varieties. The comparison between established and existing methods is analyzed in terms of reactive current injection, grid code, current amplitude limitation control, active power control, zero active power oscillations, and injection of active and reactive power. Furthermore, the statistical evaluation of established, and existing methods of mean, median, and standard deviation, is evaluated. Finally, the proposed model is executed in MATLAB/Simulink working platform and the execution is compared with the existing techniques.
Keywords: Power flow management, proportional integral (PI) controller, unbalanced voltage drops, current injection, statistical analysis
DOI: 10.3233/JIFS-200266
Journal: Journal of Intelligent & Fuzzy Systems, vol. 39, no. 3, pp. 4159-4181, 2020
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