This project is design based on the paper "Optimal placement of multi-distributed generation units including different load models using particle swarm optimization" and proposes a multi-objective index-based approach for optimally determining the size and location of multi-distributed generation (multi-DG) units in distribution systems with different load models. The main objective of the design is to develop the new method for both grids connected mode and islanding mode. Design Flow: 1) Create a distribution network with a mixture of loads. (i.e. constant, industrial, residential, commercial loads) 2) Add Distributed Generations (DG) like wind, Photovoltaic and synchronous generators with the existing distribution network. 3) Locate multiple DG’s optimally by the multi-objective optimization algorithm(Stochastic Fractal Search Algorithm). 4) Run load flow 5) Develop fault detection and location algorithm using advanced ANN techniques. Design Specifications
- No of Bus Systems-3
- IEEE Bus Systems No-14, 38 and 118
- No of DG-3
- Dg Type- Wind-1, Photovoltaic-1, and Synchronous Generator-1
- Modes Type: Grid Connected and Island mode
- Load Models: Constant, Industrial, Commercial, and Residential
- Protection Algorithm- ANN
- DG optimum allocation using Stochastic Fractal Search Algorithm
Reference Paper-1: Optimal placement of multi-distributed generation units including different load models using particle swarm optimization Author Name: A.M. El-Zonkoly Source: Elsevier-Swarm and Evolutionary Computation Year:2011 Reference Paper-2: Simultaneous allocation of DGs and remote controllable switches in distribution networks considering multilevel load model Author Name: M. Raoofat Source: Science Direct-Elsevier Year:2011
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