Optimal Allocation of Different Types of Distributed Generators in Distribution System

Abstract

In this paper, an effective methodology is proposed for the optimal allocation of conventional (Gas turbines) and renewable based distributed generators (solar, wind) in the distribution system (DS) are presented. The objectives are to minimize real, reactive power losses and emission produced by the sources. Initially, the best locations for placement of  DGs  are identified by voltage stability factor (VSF) concept. The number and size of solar, wind based DGs and gas turbines corresponding to these locations are determined by applying search based dragonfly algorithm (DFA). The generation uncertainties associated with wind and solar based DGs is effectively modeled by Weibull and beta probability distribution functions (PDF) to determine the exact output power. Two different scenarios, i.e. optimal allocation and the combination of different types DERs in the distribution system is considered in this analysis. The developed method is tested on IEEE 33 and 69 bus distribution systems. Finally, the obtained results are compared with other promising methods in the literature. The results show its effectiveness in terms of solving respective objective function.

Keywords

• Distributed Generators (DGs),Radial Distribution System (RDS),Radial Distribution System (RDS),Power loss minimization,Probability Distribution Function (PDF),Distributed Generators (DGs)

References

1. Velamuri suresh, velamuri.suresh@gmail.com, Phd
2. Ravi Kumar Melimi, ravikumar.melimi@gmail.com, Phd