A study on stablization of electric power supply under smart grid environment: Utilizing storage function of electric vehicles

Kazuki Takeyama, Koichi Murata, Hiroshi Katayama

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

    Abstract

    Drastic changes in global warming and natural disasters all around the world have yielded an interest in usage of renewable and sustainable energy. Out of all the types of renewable energy, the usage of solar power generation has been rapidly growing in recent years. However, since solar power is acutely affected by weather conditions, smart grid systems that can stabilize each house's electricity supply and demand balance are accumulating interest. In smart grid systems, storage batteries have an important role in stabilization, and its costs and management problems have emerged. From the points above, this study will take a look at utilizing electric vehicle's storage batteries, which its technology has been rapidly advancing recently, and construct a model of such smart grids. Upon further research, this study will point out the relationship between the necessary solar panels and storage capacity when acknowledging about stabilized smart grids. Its effects and problems on the application of such systems in real life will be also discussed.

    Original languageEnglish
    Title of host publicationCIE 2016: 46th International Conferences on Computers and Industrial Engineering
    PublisherComputers and Industrial Engineering
    Publication statusPublished - 2016
    Event46th International Conferences on Computers and Industrial Engineering, CIE 2016 - Tianjin, China
    Duration: 2016 Oct 292016 Oct 31

    Other

    Other46th International Conferences on Computers and Industrial Engineering, CIE 2016
    CountryChina
    CityTianjin
    Period16/10/2916/10/31

    Fingerprint

    Solar power generation
    Global warming
    Electric vehicles
    Disasters
    Solar energy
    Electricity
    Stabilization
    Costs

    Keywords

    • Electric power supply
    • Electric vehicle
    • Management system
    • Smart grid
    • Sustainable energy

    ASJC Scopus subject areas

    • Computer Science(all)
    • Industrial and Manufacturing Engineering
    • Control and Systems Engineering
    • Electrical and Electronic Engineering
    • Safety, Risk, Reliability and Quality

    Cite this

    Takeyama, K., Murata, K., & Katayama, H. (2016). A study on stablization of electric power supply under smart grid environment: Utilizing storage function of electric vehicles. In CIE 2016: 46th International Conferences on Computers and Industrial Engineering Computers and Industrial Engineering.

    A study on stablization of electric power supply under smart grid environment : Utilizing storage function of electric vehicles. / Takeyama, Kazuki; Murata, Koichi; Katayama, Hiroshi.

    CIE 2016: 46th International Conferences on Computers and Industrial Engineering. Computers and Industrial Engineering, 2016.

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

    Takeyama, K, Murata, K & Katayama, H 2016, A study on stablization of electric power supply under smart grid environment: Utilizing storage function of electric vehicles. in CIE 2016: 46th International Conferences on Computers and Industrial Engineering. Computers and Industrial Engineering, 46th International Conferences on Computers and Industrial Engineering, CIE 2016, Tianjin, China, 16/10/29.
    Takeyama K, Murata K, Katayama H. A study on stablization of electric power supply under smart grid environment: Utilizing storage function of electric vehicles. In CIE 2016: 46th International Conferences on Computers and Industrial Engineering. Computers and Industrial Engineering. 2016
    Takeyama, Kazuki ; Murata, Koichi ; Katayama, Hiroshi. / A study on stablization of electric power supply under smart grid environment : Utilizing storage function of electric vehicles. CIE 2016: 46th International Conferences on Computers and Industrial Engineering. Computers and Industrial Engineering, 2016.
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