A priority order solution of EV recharger installation by domain division approach

Fumiko Koyanagi, Ryuichi Yokoyama

Research output: Chapter in Book/Report/Conference proceedingConference contribution

9 Citations (Scopus)

Abstract

Recently, Electric Vehicles (EVs) are gaining attention as the next automotive society and the smart energy society. The utilities are considered the technology of "Vehicle to Grid", such as V2G to be an epoch making tool for survives unstable power sources control. To meet amount of energy demand, it takes more time to EV propulsion. Though, for spread of EV, establishment of an appropriate EV infrastructure is important. Most automakers and utilities plan a commuter EV is domestic recharged in general. However, customers wish to recharge their EV in public at anytime for their psychologically safe. This study investigates an appropriate allocation of EV recharger (Energy Station) in Musashino city. We define the priority order among Energy Station candidates by comparing with a Voronoi diagram and the priority order circular diagram. Both diagrams are represented by the segmentation from specific town information. The outcome of this approach will result in an industry blueprint for implementing infrastructure to support electric transportation and will provide strategic and safe guidelines to installing the appropriate equipment for residential and fleet EV customers.

Original languageEnglish
Title of host publicationProceedings of the Universities Power Engineering Conference
Publication statusPublished - 2010
Event2010 45th International Universities' Power Engineering Conference, UPEC 2010 - Cardiff
Duration: 2010 Aug 312010 Sep 3

Other

Other2010 45th International Universities' Power Engineering Conference, UPEC 2010
CityCardiff
Period10/8/3110/9/3

Fingerprint

Electric vehicles
Blueprints
Propulsion
Industry

Keywords

  • Electric vehicles
  • Infrastructure
  • Optimum allocation
  • Power system operation
  • Priority order circular
  • Recharger
  • Smart grid
  • Voronoi diagram

ASJC Scopus subject areas

  • Energy Engineering and Power Technology

Cite this

Koyanagi, F., & Yokoyama, R. (2010). A priority order solution of EV recharger installation by domain division approach. In Proceedings of the Universities Power Engineering Conference [5648992]

A priority order solution of EV recharger installation by domain division approach. / Koyanagi, Fumiko; Yokoyama, Ryuichi.

Proceedings of the Universities Power Engineering Conference. 2010. 5648992.

Research output: Chapter in Book/Report/Conference proceedingConference contribution

Koyanagi, F & Yokoyama, R 2010, A priority order solution of EV recharger installation by domain division approach. in Proceedings of the Universities Power Engineering Conference., 5648992, 2010 45th International Universities' Power Engineering Conference, UPEC 2010, Cardiff, 10/8/31.
Koyanagi F, Yokoyama R. A priority order solution of EV recharger installation by domain division approach. In Proceedings of the Universities Power Engineering Conference. 2010. 5648992
Koyanagi, Fumiko ; Yokoyama, Ryuichi. / A priority order solution of EV recharger installation by domain division approach. Proceedings of the Universities Power Engineering Conference. 2010.
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