Plug-In Electric Vehicle and Voltage Support for Distributed Solar: Theory and Application

This paper examines plug-in electric vehicle (PEV) grid integration, which is a specific, yet significant, component of the overall innovation being adopted by the electric power system. We propose a PEV charging policy that considers transmission and distribution integration issues and reacts to market signals across time scales and systems. More specifically, we propose that the PEV should make economic charging decisions every 5 min based on a real-time market energy price signal. On the time scale of seconds, the PEV provides voltage support for the distribution network, which may allow increased penetrations of distributed photovoltaic (PV) solar arrays. Simulation results using Electric Reliability Council of Texas wholesale power market data suggest that this voltage support service may be provided at a low cost to the individual PEV owner ($5-$50 per year). Therefore, this may prove a more attractive option for supporting distributed PV arrays than distribution network upgrades such as tap-changer-equipped transformers. Finally, we demonstrate the feasibility of our control algorithm through a test system located at the National Renewable Energy Laboratory.

[1]  Ning Lu,et al.  Smart-grid security issues , 2010, IEEE Security & Privacy.

[2]  M. Ilic,et al.  Optimal Charge Control of Plug-In Hybrid Electric Vehicles in Deregulated Electricity Markets , 2011, IEEE Transactions on Power Systems.

[3]  Jukka Paatero,et al.  Effects of Large-Scale Photovoltaic Power Integration on Electricity Distribution Networks , 2007, Renewable Energy.

[4]  Mohammad Kazem Sheikh-El-Eslami,et al.  Wind farm power management by high penetration of PHEV , 2011, 2011 IEEE Power and Energy Society General Meeting.

[5]  H. T. Mouftah,et al.  Management of PHEV batteries in the smart grid: Towards a cyber-physical power infrastructure , 2011, 2011 7th International Wireless Communications and Mobile Computing Conference.

[6]  Sekyung Han,et al.  Development of an Optimal Vehicle-to-Grid Aggregator for Frequency Regulation , 2010, IEEE Transactions on Smart Grid.

[7]  Tony Markel,et al.  Value of plug-in vehicle grid support operation , 2010, 2010 IEEE Conference on Innovative Technologies for an Efficient and Reliable Electricity Supply.

[8]  Jay Apt,et al.  Net air emissions from electric vehicles: the effect of carbon price and charging strategies. , 2011, Environmental science & technology.

[9]  Saifur Rahman,et al.  An investigation into the impact of electric vehicle load on the electric utility distribution system , 1993 .

[10]  G. Joos,et al.  Energy management & scheduling in a fast charging station for PHEV batteries , 2011, 2011 IEEE Power and Energy Society General Meeting.

[11]  Ahmed Yousuf Saber,et al.  Efficient Utilization of Renewable Energy Sources by Gridable Vehicles in Cyber-Physical Energy Systems , 2010, IEEE Systems Journal.

[12]  N. P. Padhy,et al.  Cost-Benefit Reflective Distribution Charging Methodology , 2008, IEEE Transactions on Power Systems.

[13]  W. Short,et al.  Evaluation of Utility System Impacts and Benefits of Optimally Dispatched Plug-In Hybrid Electric Vehicles (Revised) , 2006 .

[14]  G. Andersson,et al.  Demand Management of Grid Connected Plug-In Hybrid Electric Vehicles (PHEV) , 2008, 2008 IEEE Energy 2030 Conference.

[15]  Willett Kempton,et al.  Vehicle-to-grid power implementation: From stabilizing the grid to supporting large-scale renewable energy , 2005 .

[16]  Ziyad M. Salameh,et al.  Analysis of the effects of a passing cloud on a grid-interactive photovoltaic system with battery storage using neural networks , 1999 .

[17]  Michael C. Caramanis,et al.  Energy reserves and clearing in stochastic power markets: The case of plug-in-hybrid electric vehicle battery charging , 2010, 49th IEEE Conference on Decision and Control (CDC).

[18]  Christoforos N. Hadjicostis,et al.  Coordination and Control of Distributed Energy Resources for Provision of Ancillary Services , 2010, 2010 First IEEE International Conference on Smart Grid Communications.

[19]  J. Driesen,et al.  The Impact of Charging Plug-In Hybrid Electric Vehicles on a Residential Distribution Grid , 2010, IEEE Transactions on Power Systems.

[20]  Filipe Joel Soares,et al.  Integration of Electric Vehicles in the Electric Power System , 2011, Proceedings of the IEEE.

[21]  Ian A. Hiskens,et al.  Decentralized charging control for large populations of plug-in electric vehicles , 2010, 49th IEEE Conference on Decision and Control (CDC).

[22]  Manfred Morari,et al.  Model predictive control: Theory and practice - A survey , 1989, Autom..

[23]  Mohamed A. El-Sharkawi,et al.  Optimal Charging Strategies for Unidirectional Vehicle-to-Grid , 2011, IEEE Transactions on Smart Grid.