Capacitor allocation in order to maximize the loss reduction benefit and improve the voltage profile based on NSGA-II

“…The technique uses a domination-based approach to assign fitness through non-domination ranking and crowding distance [125]. Some applications [25], [31], [82], [126]- [129] of NSGA-II to the optimal integration problems are discussed below.…”

“…In [126], NSGA-II was used for power loss minimization and voltage profile improvement. Electricity prices and probabilistic load (with peak) were modeled based on time series for optimally sizing and placing capacitors in a distribution network, and the fuzzy decision model was used to select the compromise solution.…”

A Review of Metaheuristic Techniques for Optimal Integration of Electrical Units in Distribution Networks

“…The technique uses a domination-based approach to assign fitness through non-domination ranking and crowding distance [125]. Some applications [25], [31], [82], [126]- [129] of NSGA-II to the optimal integration problems are discussed below.…”

“…In [126], NSGA-II was used for power loss minimization and voltage profile improvement. Electricity prices and probabilistic load (with peak) were modeled based on time series for optimally sizing and placing capacitors in a distribution network, and the fuzzy decision model was used to select the compromise solution.…”

A Review of Metaheuristic Techniques for Optimal Integration of Electrical Units in Distribution Networks

“…Some researchers have conducted indepth studies on the characteristics of voltage stabilizers and their applications in various electrical and electronic systems. Some examples of voltage stabilizer research such as research on optimizing inductor-capacitor circuits (Kawashima et al, 2009), application of voltage stabilizers on modern materials (Englund et al, 2009), voltage doubler simulation using MATLAB (Balamurugan et al, 2014), ultra-capacitor-based voltage stabilizer (Villegas et al, 2015), automatic voltage regulator with an angle-based switching strategy (Batmani and Golpîra, 2019), capacitors design for voltage stabilizer (Farsadi et al, 2016), and Pareto analysis (Torreglosa et al, 2016) have contributed to improving the performance quality of the voltage stabilizer.…”

Overcoming voltage fluctuation in electric vehicles by considering Al electrolytic capacitor-based voltage stabilizer