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Abstract
In this paper, a graph theory-based allocation methodology of capacitor bank is proposed for unbalanced distribution system. A single-stage optimization procedure using electrical centrality measure concept to identify the best suitable locations for the multi-point connection of capacitor is described with its significance. The electrical centrality measure approach gives ranking of all the buses, single capacitor or multiple capacitors can be placed in unbalanced distribution system (UDS) using these indices to fulfill the reactive power demand and maintain voltage profile of the system. To evaluate the performance of the UDS due to capacitor bank connection two parameters are considered – improvement of overall voltage profile and reduction of active power loss. The contribution of the paper is – first, electrical centrality measure is used for identifying the capacitor bank location in the unbalanced distribution system and second it optimizes the size of the capacitor using two different objectives to improve the system voltage profile and reduce the active power loss. The proposed methodology is tested on a modified 123 bus unbalanced distribution system. The active power loss reduction up to 16.50% and total voltage deviation reduction up to 71.53% were achieved using the proposed method. The obtained results corresponding to the two objectives are also compared.
DISCLOSURE STATEMENT
No potential conflict of interest was reported by the author(s).
Additional information
Notes on contributors
Sourav Mondal
Sourav Mondal is currently pursuing his PhD degree from NIT, Patna. He received his bachelor's degree from Hooghly Engineering and Technology College in 2015 and ME in power system from BIT, Mesra, Ranchi, in 2018. His current research interests are distribution system analysis, optimization and control.
Mala De
Mala De received her BE in electrical engineering in 2000 from Jalpaiguri Govt Engg College, West Bengal. She completed her MTech degree in power and energy systems from NIT Silchar in 2007 and earned her PhD degree from Jadavpur University, West Bengal, in 2012. She is currently working as an assistant professor in the Department of Electrical Engineering at NIT Patna, since 2013. She works in the domain of power system operation and control, load forecasting and demand side management of smart grid, power system resiliency and power system optimization. Email: [email protected]