IMPACT ASSESSMENT OF OPTIMAL LOCATION OF DG IN DISTRIBUTION SYSTEMS BY USING BINARY PSO OPTIMIZATION ALGORITHM

    Distributed Generation (DGs) plays a key role in the residential, commercial and industrial sectors of the power system. It mainly introduces four effect areas, namely, distribution network real power loss, voltage, distribution grid planning, and relay protection. In this analysis, load flow method is used for the optimization of the objective function for minimization of total real power loss and reactive power loss of the system.  This Matlab design presents the enhancement and impacts of the system losses, voltage profile, and cost by using distributed generations (DGs) of different size in the distribution network which is focused on analyzing the impact of DG installation on distribution network operation including system voltage profile analysis, real and reactive power losses and cost of the system. Incorporating DG significantly decreases the power loss and maximizes the stability of the voltage profile. The proposed methodology has been tested for IEEE-33 and 69 Bus System using Binary PSO Optimization (BPSO) under different types of DG’s.

Reference Paper-1: Impact Assessment of DG in Distribution Systems from Minimization of Total Real Power Loss Viewpoint by using Optimal Power Flow Algorithms
Author’s Name: Bindeshwar Singh, and Bindu Jee
Source: Elsevier
Year:2018
Reference Paper-2: Optimal reconfiguration and capacitor placement for power loss reduction of distribution system using improved binary particle swarm optimization
Author’s Name: Mostafa Sedighizadeh, Marzieh Dakhem, Mohammad Sarvi, and Hadi Hosseini Kordkheili
Source: Springer-Int J Energy Environ Eng
Year:2014

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