Impact of reverse power flow on the optimal distributed generation placement problem

Integration of distributed generation (DG) in existing distribution networks has been studied thoroughly during the past years as a measure of reducing grid's power losses. However, the optimal DG placement, known as ODGP, toward loss minimisation, has not been studied in depth by considering t...

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Published inIET generation, transmission & distribution Vol. 11; no. 18; pp. 4626 - 4632
Main Authors Sgouras, Kallisthenis I, Bouhouras, Aggelos S, Gkaidatzis, Paschalis A, Doukas, Dimitrios I, Labridis, Dimitris P
Format Journal Article
LanguageEnglish
Published The Institution of Engineering and Technology 21.12.2017
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Summary:Integration of distributed generation (DG) in existing distribution networks has been studied thoroughly during the past years as a measure of reducing grid's power losses. However, the optimal DG placement, known as ODGP, toward loss minimisation, has not been studied in depth by considering the possible impact of the reverse power flow (RPF) caused by extended penetration of distributed energy resources. This study uses a constriction factor embedded local particle swarm optimisation algorithm along with the appropriate particle formulation that solves the ODGP problem by taking into account the impact of possible RPF. In this study, the idea of RPF modelling is introduced by providing extended versions of IEEE test systems. Modified versions of the IEEE 30-bus and IEEE 33-bus test systems are modelled and results are presented in order to highlight the impact of RPF on the ODGP problem solution. The mathematical formulation is given, results and analysis for both extended systems are presented, while the importance of RPF for different conditions is assessed.
ISSN:1751-8687
1751-8695
1751-8695
DOI:10.1049/iet-gtd.2016.1791