Title :
Simultaneous Allocation of Charging Stations and Capacitors in Distribution Networks Improving Voltage and Power Loss
Author :
Pazouki, Samaneh ; Mohsenzadeh, Amin ; Haghifam, Mahmoud-Reza ; Ardalan, Shahab
Author_Institution :
Young Res. & Elite Club, Islamic Azad Univ., Tehran, Iran
Abstract :
One of the prominent concerns of big cities is greenhouse gas emission due to internal combustion engines of fossil fuel vehicles. Facilitating global deployment by electric vehicles is considered as a promising pathway to greenhouse gas reduction and energy security. In order to supply the vehicles, charging stations (CS) are necessitated as inevitable requirements. Inappropriate place and size of CS cause some new technical challenges, such as voltage deviation and an increase in power loss. This paper presents optimal planning of CS in presence of capacitors (CAP) to maintain voltage and improve power loss in electrical distribution networks. Simulation is carried out on a 34-bus radial distribution network. A genetic algorithm is employed to solve the optimization problem. Results demonstrate the effect of optimal planning of CS and CAP on power loss and voltage profile in electric distribution networks.
Keywords :
battery storage plants; genetic algorithms; power capacitors; power distribution planning; 34-bus radial distribution network; big cities; capacitors; charging stations; electric vehicles; electrical distribution networks; energy security; fossil fuel vehicles; genetic algorithm; global deployment; greenhouse gas emission; greenhouse gas reduction; internal combustion engines; optimal planning; power loss; voltage deviation; voltage profile; Biological cells; Charging stations; Genetic algorithms; Investment; Planning; Vehicles; Capacitor (CAP) placement; charging station (CS) placement; electric distribution network; loss; voltage profile;
Journal_Title :
Electrical and Computer Engineering, Canadian Journal of
DOI :
10.1109/CJECE.2014.2377653
