• Title of article

    Modified multi-objective PSO for coordination of directional overcurrent relays in interconnected networks

  • Author/Authors

    MAHBOUBKHAH, AFSHIN Department of Electrical Engineering - Urmia Branch - Islamic Azad University - Urmia - Iran , TALAVAT, VAHID Department of Electrical Engineering - Urmia Branch - Islamic Azad University - Urmia - Iran , BEIRAGHI, MOJTABA Department of Electrical Engineering - Urmia Branch - Islamic Azad University - Urmia - Iran

  • Pages
    8
  • From page
    43
  • To page
    50
  • Abstract
    Directional overcurrent relays are used to protect transmission lines against short circuits. Reducing the total operating time of relays has always been a challenge for protection engineers. For this purpose, various optimization algorithms have been introduced, some of which are based on multi-objective optimization. The objective functions of multi-objective algorithms must have the Pareto optimality property, which it’s ignoring is one of the drawbacks of previous studies. In this paper, new objective functions are proposed for a multi-objective optimization problem. To solve the optimization problem, the Multi-object PSO (MOPSO)algorithm is applied with small but effective changes to get the fastest settings of relays. These changes include a leader selection method, a removal method of repository surplus members, and a new velocity vector for particles based on the value of the objective function in the previous iteration. The proposed algorithm is evaluated in IEEE 30-bus network and compared with the standard MOPSO. There is also a comparison with the recent outstanding papers. The proposed method, compared to the 15 algorithms of other papers, results in the lowest total operating time of relays with a 7% reduction. © 2020 Journal of Energy Management and Technology keywords:
  • Keywords
    MOPSO , Optimization , Pareto-ranking , IEEE 30-bus network
  • Journal title
    Journal of Energy Management and Technology
  • Serial Year
    2021
  • Record number

    2545898