Abstract
The Plug-in Electric Vehicles (PEVs) are the Battery Electric Vehicles (BEVs) and Plug-in Hybrid Electric Vehicles (PHEVs). PEVs will dominate the transportation in the personal mobility mode and in the automobile market by 2030. Widespread adoption of PEVs brings potential, social and economic benefits. The focus on promoting use of electric vehicles in road transportation is very essential to meet the climate change targets and manage the ever hiking prices of fast depleting fossil fuels. However, there are lots of uncertainties in the market about the acceptability of PEVs by customers due to the capital and operation costs and inadequate infrastructure for charging systems. The penetration level in the market is not encouraging, in spite of incentives offered by Governments. Manufacturers are also not sure of the market, even though predictions are strong and attractive. Major manufacturers, however, are already ready with their plans to introduce electric vehicles to mass market. The use of PEVs has both technological and market issues and impacts. Series of research works have been reported to address the issues related to technologies and its impacts on political, economic, environmental, infrastructural and market potential aspects. Works dealing with suitable infrastructure such as charging stations and use of smart grids are reported. These steps are aimed to bring down the capital and operational costs that are comparable to the costing of conventional transport vehicles. The penetration level of PEVs in transportation will accordingly increase and keep the climate targets met and conserve fossil fuels for use in other economic segments. An overview on these issues is presented in this chapter.
C. S. Indulkar—Former Professor, IIT Delhi
Access this chapter
Tax calculation will be finalised at checkout
Purchases are for personal use only
References
Calef D, Goble R (2007) The allure of technology: how France and California promoted electric and hybrid vehicles to reduce urban air pollution. Policy Sci 40(1):1–34
Lave LB, MacLean HL (2002) An environmental-economic evaluation of hybrid electric vehicles: Toyota’s Prius vs. its conventional internal combustion engine Corolla. Transp Res 7(2):155–162
Greene DL (1998) Why CAFÉ worked. Energy Policy 26(8):595–613
Greene DL, Patterson PD, Singh M, Li J (2005) Feebates, rebates and gas-guzzler taxes: a study of incentives for increased fuel economy. Energy Policy 33(6):757–775
Santini DJ, PatttersonPD, Vyas AD (1999) The importance of vehicle costs, fuel prices, and fuel efficiency to HEV market success. In: Proceedings from 79th annual meeting of the transportation research board, Washington, DC
Kayser HA (2000) Gasoline demand and car choice: estimating gasoline demand using household information. Energy Econ 22:331–348
Khan M, Kockelman KM (2012) Predicting the market potential of plug-in electric vehicles using multiday GPS data. Energy Policy 46:225–233
Kempton W, Letendre S (1997) Electric vehicles as a new power source for electric utilities. Transp Res Part D 2(3):157–175
Electric Vehicle Transportation Center (2014) Report on electric vehicle sales and future projections. University of Central Florida
Nemry F, Leduc G, Muñoz A (2009) Plug-in hybrid and battery-electric vehicles: state of the research and development and comparative analysis of energy and cost efficiency, JRC Technical Notes JRC 54699 © European Communities
Electric vehicles: potential, technology and government initiatives—a report, Energy Alternative India (EAI). http://www.eai.in/ref/ct/ev/ev.html
Plug-in electric vehicles: literature review, center for climate and energy solutions. http://www.c2es.org/initiatives/pev, http://www.c2es.org/docUploads/PEV-action-plan.pdf. July 2011
Plug-in electric vehicle handbook for consumers, EERE Information Center 1-877-EERE-INFO (1-877-337-3463) www.eere.energy.gov/informationcenter, US Department of Energy. http://www.electricdrive.org/index.php?ht=d/sp/i/20952/pid/20952. Sept 2011
Hybrid electric vehicles: an overview of current technology and its application in developing and transitional countries—UNEP-hev_report, 2009. http://www.unep.org/transport/pcfv/PDF/HEV_Report.pdf
Plug-in electric vehicles. battery electric and plug-in hybrid electric vehicles: OEM strategies, demand drivers, technology issues, key industry players, and global market forecasts—Pike Research Report published 2012. http://www.navigantresearch.com/wp-content/uploads/2012/06/PEV-12-Executive-Summary.pdf
Liu R, Dow L, Liu E (2011) A survey of PEV impacts on electric utilities. In: IEEE PEs innovative smart grid technologies conference, CA USA, Jan 2011
Kintner-Meyer M, Schneider K, Pratt R (2007) Impacts assessment of plug-in hybrid vehicles on electric utilities and regional US power grids part 1: technical analysis. Pac Northwest Natl Lab pp.1–20. https://www.ferc.gov/about/com-mem/5-24-07-technical-analy-wellinghoff.pdf
Brooker A, Thomton M, Rugh J (2010) Technology improvement pathways to cost-effective vehicle electrification. In: Conference paper NREL/CP-540-47454, Feb 2010
Kempton W, Tomic J (2005) Vehicle-to-Grid Power fundamentals: calculating capacity and net revenue. J Power Sources 144(1):268–279
Kempton W, Tomic J (2005) Vehicle-to-grid power implementation; from stabilizing the grid to supporting large-scale renewable energy. J Power Sources 144(1):280–294
Towards an ontario action plan for plug‐in‐electric vehicles (PEVs) Waterloo Institute for Sustainable Energy, University of Waterloo, Waterloo, May 2010. http://normandmousseau.com/documents/Canizares-2.pdf
Greater charlotte plug-in-electric vehicle (PEV) readiness plan, clean cities, US Department of Energy, Version 1.1, Feb 2013. http://www.advancedenergy.org/portal/ncpev/docs/GreaterCharlottePEVReadinessPlan-Version1.1-February2013.pdf
Shuaib K, Zhang L, Gaouda A, Abdel-Hafez M (2012) A PEV charging service model for smart grids. Energies 5:4665–4682. doi:10.3390/en5114665
Accessibility and signage report by California PEV Collaborative, May 2012. http://www.evcollaborative.org/sites/all/themes/pev/files/PEV_Accessibility_120827.pdf
An action plan to integrate plug-in electric vehicles with the US electric grid, Mar 2012. http://www.c2es.org/docUploads/PEV-action-plan.pdf
EV market outlook, state of the plug-in electric vehicle market, July 2013. https://www.pwc.com/en_IL/il/energy-cleantech/assets/ec_state_of_pev_market_final.pdf
Plug in electric vehicle (PEV) incentives analysis and options for North Carolina, NC State University, US Department of Energy, Nov 2012. http://nccleantech.ncsu.edu/wp-content/uploads/FINAL-PEV-INCENTIVE-PAPER-v5.pdf
Menu of plug-in electric vehicle incentives, US Department of Energy, Mar 2013. http://www.transportationandclimate.org/sites/default/files/Menu of Plug-In EV Incentives_Final.pdf
A summary of accomplishments and recommendations, the Washington plug-in electric vehicle task force, Feb 2013. http://www.commerce.wa.gov/Documents/PEV-Task-Force-Gov-Rpt-2013.pdf
Author information
Authors and Affiliations
Corresponding author
Editor information
Editors and Affiliations
Rights and permissions
Copyright information
© 2015 Springer Science+Business Media Singapore
About this chapter
Cite this chapter
Ramalingam, K., Indulkar, C.S. (2015). Overview of Plug-in Electric Vehicle Technologies. In: Rajakaruna, S., Shahnia, F., Ghosh, A. (eds) Plug In Electric Vehicles in Smart Grids. Power Systems. Springer, Singapore. https://doi.org/10.1007/978-981-287-299-9_1
Download citation
DOI: https://doi.org/10.1007/978-981-287-299-9_1
Published:
Publisher Name: Springer, Singapore
Print ISBN: 978-981-287-298-2
Online ISBN: 978-981-287-299-9
eBook Packages: EnergyEnergy (R0)