Combining photovoltaic energy with electric vehicles, smart charging and vehicle-to-grid

Abstract Electric vehicles are expected to greatly increase their market share in the near future. Their impact on the energy system will depend also on the way electricity will be generated. Renewable energy sources and intelligent control strategies will offer relevant solutions to mitigate that impact. In this paper we study the combination of photovoltaic energy and electric vehicles under uncontrolled charging regime and under the application of smart charging and vehicle-to-grid strategies. The analysis assumes different levels of photovoltaic generation and different penetrations of the electric vehicles. The assignment is carried out by means of an open source linear optimization model named EVLS, which simulates the interactions between the electric vehicles and the upstream energy system by considering market, technical and behavioral constraints. The results show that a high photovoltaic capacity could cover only a small portion of the transportation demand, if the charge is uncontrolled. In such a case, the non-photovoltaic generation would be required to severely ramp up in the late afternoon hours. An intelligent control of the charge could better accommodate the photovoltaic energy and reduce the ramps. The vehicle-to-grid could additionally help harnessing the photovoltaic energy to shave the peaks of the conventional load profile.

[1]  M. Ferdowsi,et al.  Charging rate optimization for plug-in hybrid electric vehicles in smart grid , 2012, 2012 IEEE Energy Conversion Congress and Exposition (ECCE).

[2]  J. Widén,et al.  Quantifying self-consumption of on-site photovoltaic power generation in households with electric vehicle home charging , 2013 .

[3]  Willett Kempton,et al.  Integration of renewable energy into the transport and electricity sectors through V2G , 2008 .

[4]  David B. Richardson,et al.  Electric vehicles and the electric grid: A review of modeling approaches, Impacts, and renewable energy integration , 2013 .

[5]  Magdy M. A. Salama,et al.  Studying the feasibility of charging plug-in hybrid electric vehicles using photovoltaic electricity in residential distribution systems , 2014 .

[6]  Filipe Moura,et al.  Vehicle-to-grid systems for sustainable development: An integrated energy analysis , 2008 .

[7]  N. Hartmann,et al.  Impact of different utilization scenarios of electric vehicles on the German grid in 2030 , 2011 .

[8]  Ahmed Yousuf Saber,et al.  Intelligent unit commitment with vehicle-to-grid —A cost-emission optimization , 2010 .

[9]  Filip Johnsson,et al.  Integration of plug-in hybrid electric vehicles in a regional wind-thermal power system , 2010 .

[10]  Nina Juul,et al.  Optimal configuration of an integrated power and transport system , 2011 .

[11]  Cong Liu,et al.  Impact of plug-in hybrid electric vehicles on power systems with demand response and wind power , 2011 .

[12]  Antonio J. Conejo,et al.  Optimal energy management of small electric energy systems including V2G facilities and renewable energy sources , 2012 .

[13]  Mark Z. Jacobson,et al.  Providing all global energy with wind, water, and solar power, Part II: Reliability, system and transmission costs, and policies , 2011 .

[14]  C. Thiel,et al.  Cost and CO2 Aspects of Future Vehicle Options in Europe under New Energy Policy Scenarios , 2010 .

[15]  Juha Kiviluoma,et al.  Methodology for modelling plug-in electric vehicles in the power system and cost estimates for a sys , 2011 .

[16]  M. Fotuhi-Firuzabad,et al.  Impacts of plug-in hybrid electric vehicle uncertainty and grid unavailability on home load management , 2012, 2012 11th International Conference on Environment and Electrical Engineering.

[17]  Karsten Emil Capion,et al.  Optimal charging of electric drive vehicles in a market environment , 2011 .

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

[19]  Alfonso Damiano,et al.  A vehicle to grid planning tool for weakly interconnected power systems , 2011, 2011 10th International Conference on Environment and Electrical Engineering.