Internal active power reserve management in Large scale PV Power Plants

Publikation: Konferencebidrag uden forlag/tidsskriftPaper uden forlag/tidsskriftForskningpeer review

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Resumé

Active Power Reserves (APRs) provided through curtailment (iAPRs) or through auxiliary storage systems (aAPR) with Large scale PV Power Plants (LPVPPs) becomes a reality in the near future with high penetration levels of Photovoltaic (PV) power into the grid. Therefore, this paper analyses the solutions for iAPR fulfilment in central inverter based - LPVPPs in terms of their layout, configuration and control architecture. During iAPR supply, the LPVPP has to operate under its Maximum Power Point (MPP), which means that the MPP algorithm has to undergo several changes. For this purpose, the paper proposes to supply iAPRs by means of a sweep function distributed over the PV inverters used in the central inverter station which has the potential to guarantee a maximum energy extraction along with a secured supply of the APR in any given meteorological condition.
OriginalsprogEngelsk
Publikationsdato11 nov. 2014
Antal sider5
StatusUdgivet - 11 nov. 2014
Begivenhed4th International Workshop on Integration of Solar into Power Systems - Berlin, Tyskland
Varighed: 10 nov. 201411 nov. 2014

Konference

Konference4th International Workshop on Integration of Solar into Power Systems
LandTyskland
ByBerlin
Periode10/11/201411/11/2014

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    Craciun, B-I., Spataru, S., Kerekes, T., Sera, D., & Teodorescu, R. (2014). Internal active power reserve management in Large scale PV Power Plants. Afhandling præsenteret på 4th International Workshop on Integration of Solar into Power Systems, Berlin, Tyskland.
    Craciun, Bogdan-Ionut ; Spataru, Sergiu ; Kerekes, Tamas ; Sera, Dezso ; Teodorescu, Remus. / Internal active power reserve management in Large scale PV Power Plants. Afhandling præsenteret på 4th International Workshop on Integration of Solar into Power Systems, Berlin, Tyskland.5 s.
    @conference{0305977cc98b4ca7aedf096ef44a4089,
    title = "Internal active power reserve management in Large scale PV Power Plants",
    abstract = "Active Power Reserves (APRs) provided through curtailment (iAPRs) or through auxiliary storage systems (aAPR) with Large scale PV Power Plants (LPVPPs) becomes a reality in the near future with high penetration levels of Photovoltaic (PV) power into the grid. Therefore, this paper analyses the solutions for iAPR fulfilment in central inverter based - LPVPPs in terms of their layout, configuration and control architecture. During iAPR supply, the LPVPP has to operate under its Maximum Power Point (MPP), which means that the MPP algorithm has to undergo several changes. For this purpose, the paper proposes to supply iAPRs by means of a sweep function distributed over the PV inverters used in the central inverter station which has the potential to guarantee a maximum energy extraction along with a secured supply of the APR in any given meteorological condition.",
    keywords = "LPVPP, iAPR, ENTSO-E",
    author = "Bogdan-Ionut Craciun and Sergiu Spataru and Tamas Kerekes and Dezso Sera and Remus Teodorescu",
    year = "2014",
    month = "11",
    day = "11",
    language = "English",
    note = "4th International Workshop on Integration of Solar into Power Systems, SIW2014 ; Conference date: 10-11-2014 Through 11-11-2014",

    }

    Craciun, B-I, Spataru, S, Kerekes, T, Sera, D & Teodorescu, R 2014, 'Internal active power reserve management in Large scale PV Power Plants' Paper fremlagt ved, Berlin, Tyskland, 10/11/2014 - 11/11/2014, .

    Internal active power reserve management in Large scale PV Power Plants. / Craciun, Bogdan-Ionut; Spataru, Sergiu; Kerekes, Tamas; Sera, Dezso; Teodorescu, Remus.

    2014. Afhandling præsenteret på 4th International Workshop on Integration of Solar into Power Systems, Berlin, Tyskland.

    Publikation: Konferencebidrag uden forlag/tidsskriftPaper uden forlag/tidsskriftForskningpeer review

    TY - CONF

    T1 - Internal active power reserve management in Large scale PV Power Plants

    AU - Craciun, Bogdan-Ionut

    AU - Spataru, Sergiu

    AU - Kerekes, Tamas

    AU - Sera, Dezso

    AU - Teodorescu, Remus

    PY - 2014/11/11

    Y1 - 2014/11/11

    N2 - Active Power Reserves (APRs) provided through curtailment (iAPRs) or through auxiliary storage systems (aAPR) with Large scale PV Power Plants (LPVPPs) becomes a reality in the near future with high penetration levels of Photovoltaic (PV) power into the grid. Therefore, this paper analyses the solutions for iAPR fulfilment in central inverter based - LPVPPs in terms of their layout, configuration and control architecture. During iAPR supply, the LPVPP has to operate under its Maximum Power Point (MPP), which means that the MPP algorithm has to undergo several changes. For this purpose, the paper proposes to supply iAPRs by means of a sweep function distributed over the PV inverters used in the central inverter station which has the potential to guarantee a maximum energy extraction along with a secured supply of the APR in any given meteorological condition.

    AB - Active Power Reserves (APRs) provided through curtailment (iAPRs) or through auxiliary storage systems (aAPR) with Large scale PV Power Plants (LPVPPs) becomes a reality in the near future with high penetration levels of Photovoltaic (PV) power into the grid. Therefore, this paper analyses the solutions for iAPR fulfilment in central inverter based - LPVPPs in terms of their layout, configuration and control architecture. During iAPR supply, the LPVPP has to operate under its Maximum Power Point (MPP), which means that the MPP algorithm has to undergo several changes. For this purpose, the paper proposes to supply iAPRs by means of a sweep function distributed over the PV inverters used in the central inverter station which has the potential to guarantee a maximum energy extraction along with a secured supply of the APR in any given meteorological condition.

    KW - LPVPP

    KW - iAPR

    KW - ENTSO-E

    M3 - Paper without publisher/journal

    ER -

    Craciun B-I, Spataru S, Kerekes T, Sera D, Teodorescu R. Internal active power reserve management in Large scale PV Power Plants. 2014. Afhandling præsenteret på 4th International Workshop on Integration of Solar into Power Systems, Berlin, Tyskland.