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    Ultracapacitors for port crane applications: Sizing and techno-economic analysis

    New search for: Kermani M.
    New search for: Parise G.
    New search for: Chavdarian B.
    New search for: Martirano L.
    New search for: Kermani, M.
    New search for: Parise, G.
    New search for: Chavdarian, B.
    New search for: Martirano, L.

    The use of energy storage with high power density and fast response time at container terminals (CTs) with a power demand of tens of megawatts is one of the most critical factors for peak reduction and economic benefits. Peak shaving can balance the load demand and facilitate the participation of small power units in generation based on renewable energies. Therefore, in this paper, the economic efficiency of peak demand reduction in ship to shore (STS) cranes based on the ultracapacitor (UC) energy storage sizing has been investigated. The results show the UC energy storage significantly reduce the peak demand, increasing the load factor, load leveling, and most importantly, an outstanding reduction in power and energy cost. In fact, the suggested approach is the start point to improve reliability and reduce peak demand energy consumption.

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    Ultracapacitors for port crane applications: Sizing and techno-economic analysis

    New search for: Kermani M.
    New search for: Parise G.
    New search for: Chavdarian B.
    New search for: Martirano L.
    New search for: Kermani, M.
    New search for: Parise, G.
    New search for: Chavdarian, B.
    New search for: Martirano, L.

    The use of energy storage with high power density and fast response time at container terminals (CTs) with a power demand of tens of megawatts is one of the most critical factors for peak reduction and economic benefits. Peak shaving can balance the load demand and facilitate the participation of small power units in generation based on renewable energies. Therefore, in this paper, the economic efficiency of peak demand reduction in ship to shore (STS) cranes based on the ultracapacitor (UC) energy storage sizing has been investigated. The results show the UC energy storage significantly reduce the peak demand, increasing the load factor, load leveling, and most importantly, an outstanding reduction in power and energy cost. In fact, the suggested approach is the start point to improve reliability and reduce peak demand energy consumption.

    Access

    Download

    Ultracapacitors for port crane applications: Sizing and techno-economic analysis

    New search for: Kermani M.
    New search for: Parise G.
    New search for: Chavdarian B.
    New search for: Martirano L.
    New search for: Kermani, M.
    New search for: Parise, G.
    New search for: Chavdarian, B.
    New search for: Martirano, L.

    The use of energy storage with high power density and fast response time at container terminals (CTs) with a power demand of tens of megawatts is one of the most critical factors for peak reduction and economic benefits. Peak shaving can balance the load demand and facilitate the participation of small power units in generation based on renewable energies. Therefore, in this paper, the economic efficiency of peak demand reduction in ship to shore (STS) cranes based on the ultracapacitor (UC) energy storage sizing has been investigated. The results show the UC energy storage significantly reduce the peak demand, increasing the load factor, load leveling, and most importantly, an outstanding reduction in power and energy cost. In fact, the suggested approach is the start point to improve reliability and reduce peak demand energy consumption.

    Access

    Download

    Access

    Download

    Page navigation

    Document information
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    Document information
    Title:

    Ultracapacitors for port crane applications: Sizing and techno-economic analysis

    Contributors:

    Kermani M. (author) / Parise G. (author) / Chavdarian B. (author) / Martirano L. (author) / Kermani, M. / Parise, G. / Chavdarian, B. / Martirano, L.

    Publication date:

    2020-01-01

    DOI:

    https://doi.org/10.3390/en13082091

    Type of media:

    Article (Journal)

    Type of material:

    Electronic Resource

    Language:

    English

    Keywords:

    ship to shore (STS) crane , techno-economic analysi , energy cost , peak shaving , ultracapacitor sizing , energy storage system (ESS)

    Classification:

    DDC:  690

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