Battery technologies in transportation applications

J. Campillo, E. Dahlquist, D.L. Danilov, N. Ghaviha, P.H.L. Notten, N. Zimmerman

Research output: Chapter in Book/Report/Conference proceedingChapterAcademic

1 Citation (Scopus)

Abstract

More than a fifth of the greenhouse emissions produced worldwide come from the transport sector. Several initiatives have been developed over the last few decades, aiming at improving vehicles’ energy conversion efficiency and improve mileage per liter of fuel. Most recently, electric vehicles have been brought back into the market as real competitors of conventional vehicles. Electric vehicle technology offers higher conversion efficiencies, reduced greenhouse emissions, low noise, etc. There are, however, several challenges to overcome, for instance: improving batteries’ energy density to increase the driving range, fast recharging, and initial cost. These issues are addressed on this chapter by looking in depth into both conventional and non-conventional storage technologies in different transportation applications.
LanguageEnglish
Title of host publicationTechnologies and Applications for Smart Charging of Electric and Plug-in Hybrid Vehicles
EditorsOttorino Veneri
Place of PublicationSwitzerland
PublisherSpringer
Pages151-206
Number of pages56
ISBN (Electronic)978-3-319-43651-7
ISBN (Print)978-3-319-43649-4
DOIs
StatePublished - 2017

Fingerprint

Greenhouses
Electric vehicles
Conversion efficiency
Energy conversion
Costs

Keywords

  • Smart charging
  • Battery
  • Electric Vehicle
  • hybrid electric vehicle (HEV) design

Cite this

Campillo, J., Dahlquist, E., Danilov, D. L., Ghaviha, N., Notten, P. H. L., & Zimmerman, N. (2017). Battery technologies in transportation applications. In O. Veneri (Ed.), Technologies and Applications for Smart Charging of Electric and Plug-in Hybrid Vehicles (pp. 151-206). Switzerland: Springer. DOI: 10.1007/978-3-319-43651-7_5
Campillo, J. ; Dahlquist, E. ; Danilov, D.L. ; Ghaviha, N. ; Notten, P.H.L. ; Zimmerman, N./ Battery technologies in transportation applications. Technologies and Applications for Smart Charging of Electric and Plug-in Hybrid Vehicles. editor / Ottorino Veneri. Switzerland : Springer, 2017. pp. 151-206
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Campillo, J, Dahlquist, E, Danilov, DL, Ghaviha, N, Notten, PHL & Zimmerman, N 2017, Battery technologies in transportation applications. in O Veneri (ed.), Technologies and Applications for Smart Charging of Electric and Plug-in Hybrid Vehicles. Springer, Switzerland, pp. 151-206. DOI: 10.1007/978-3-319-43651-7_5

Battery technologies in transportation applications. / Campillo, J.; Dahlquist, E.; Danilov, D.L.; Ghaviha, N.; Notten, P.H.L.; Zimmerman, N.

Technologies and Applications for Smart Charging of Electric and Plug-in Hybrid Vehicles. ed. / Ottorino Veneri. Switzerland : Springer, 2017. p. 151-206.

Research output: Chapter in Book/Report/Conference proceedingChapterAcademic

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AU - Campillo,J.

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AU - Zimmerman,N.

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N2 - More than a fifth of the greenhouse emissions produced worldwide come from the transport sector. Several initiatives have been developed over the last few decades, aiming at improving vehicles’ energy conversion efficiency and improve mileage per liter of fuel. Most recently, electric vehicles have been brought back into the market as real competitors of conventional vehicles. Electric vehicle technology offers higher conversion efficiencies, reduced greenhouse emissions, low noise, etc. There are, however, several challenges to overcome, for instance: improving batteries’ energy density to increase the driving range, fast recharging, and initial cost. These issues are addressed on this chapter by looking in depth into both conventional and non-conventional storage technologies in different transportation applications.

AB - More than a fifth of the greenhouse emissions produced worldwide come from the transport sector. Several initiatives have been developed over the last few decades, aiming at improving vehicles’ energy conversion efficiency and improve mileage per liter of fuel. Most recently, electric vehicles have been brought back into the market as real competitors of conventional vehicles. Electric vehicle technology offers higher conversion efficiencies, reduced greenhouse emissions, low noise, etc. There are, however, several challenges to overcome, for instance: improving batteries’ energy density to increase the driving range, fast recharging, and initial cost. These issues are addressed on this chapter by looking in depth into both conventional and non-conventional storage technologies in different transportation applications.

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Campillo J, Dahlquist E, Danilov DL, Ghaviha N, Notten PHL, Zimmerman N. Battery technologies in transportation applications. In Veneri O, editor, Technologies and Applications for Smart Charging of Electric and Plug-in Hybrid Vehicles. Switzerland: Springer. 2017. p. 151-206. Available from, DOI: 10.1007/978-3-319-43651-7_5