@article{iteces2014234,
author={{Chukwu, Uwakwe C. and Mahajan, Satish M.},
title={Evaluation of the Voltage Stability of a Radial Distribution System having V2G Facilities},
journal={International Transaction of Electrical and Computer Engineers System},
volume={2},
number={3},
pages={98--106},
year={2014},
url={http://pubs.sciepub.com/iteces/2/3/4},
abstract={The penetration of V2G into the distribution system is expected to impact the way power systems are being operated. Voltage instability in the distribution system is a growing problem, and is associated with rapid voltage drops due to heavy load demand that may occur during uncoordinated and simultaneous charging of V2G units during peak hours of a typical day<b>. </b>This is a pressing issue since the next generation electric distribution system may exhibit a high level of volatility due to V2G<b> </b>penetration. In this paper, the impact of V2G parking lots on voltage stability of a radial distribution network is investigated. IEEE 13 Node test feeder network was modeled in the RDAP. Load flow results were applied to the voltage stability index. Results show that for a given penetration level, 3-phase and system-wide V2G integration results in an improved voltage stability than a 1-phase V2G integration. Results also indicate that using V2G parking lots to inject reactive power will have an improved impact on the voltage stability of the system than injecting a real power into the system. These results could be useful for real-time applications as well as for power system operators and planners dealing with an increasing influx of V2Gs in the distribution system.},
doi={10.12691/iteces-2-3-4}
publisher={Science and Education Publishing}
}