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access icon openaccess Implementation and validation of synthetic inertia support employing series produced electric vehicles

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References

    1. 1)
      • A. Ulbig , T. Borsche , G. Andersson .
        1. Ulbig, A., Borsche, T., Andersson, G.: ‘Impact of low rotational inertia on power system stability and operation’. The 19th World Congress of the Int. Federation of Automatic Control, 2014, pp. 112.
        . The 19th World Congress of the Int. Federation of Automatic Control , 1 - 12
    2. 2)
      • 2. The Commission for Energy Regulation: ‘Rate of change of frequency (RoCoF) modification to the grid code’, 2014.
        .
    3. 3)
      • R.A. Walling , N.W. Miller .
        3. Walling, R.A., Miller, N.W.: ‘Distributed generation islanding – implications on power system dynamic performance’. Power Engineering Society Summer Meeting, 2002, pp. 9296.
        . Power Engineering Society Summer Meeting , 92 - 96
    4. 4)
      • 4. EIRGRID and SONI: ‘RoCoF alternative & complementary solutions project’, 2016.
        .
    5. 5)
      • E. Muljadi , V. Gevorgian , M. Singh .
        5. Muljadi, E., Gevorgian, V., Singh, M.: ‘Understanding inertial and frequency response of wind power plants’. IEEE Symp. on Power Electronics and Machines in Wind Applications, 2012, pp. 18.
        . IEEE Symp. on Power Electronics and Machines in Wind Applications , 1 - 8
    6. 6)
      • K. Knezovic , S. Martinenas , P. B. Andersen .
        6. Knezovic, K., Martinenas, S., Andersen, P. B., et al: ‘Enhancing the role of electric vehicles in the power grid: field validation of multiple ancillary services’, IEEE Trans. Transp. Electrif., 2016, 99, pp. 11.
        . IEEE Trans. Transp. Electrif. , 1 - 1
    7. 7)
    8. 8)
    9. 9)
      • 9. IEC 61851-1: ‘Electric vehicle conductive charging system – part 1: general requirements’, 2010.
        .
    10. 10)
      • S. Martinenas , M. Marinelli , P. B. Andersen .
        10. Martinenas, S., Marinelli, M., Andersen, P. B., et al: ‘Evaluation of electric vehicle charging controllability for provision of time critical grid services’, 2016, pp. 15.
        . , 1 - 5
    11. 11)
      • M. Rezkalla , M. Marinelli , M. Pertl .
        11. Rezkalla, M., Marinelli, M., Pertl, M., et al: ‘Trade-off analysis of virtual inertia and fast primary frequency control during frequency transients in a converter dominated network’. IEEE PES Innovative Smart Grid Technologies – Asia, 2016, pp. 16.
        . IEEE PES Innovative Smart Grid Technologies – Asia , 1 - 6
    12. 12)
      • M. Rezkalla , A. Zecchino , M. Pertl .
        12. Rezkalla, M., Zecchino, A., Pertl, M., et al: ‘Grid frequency support by single-phase electric vehicles employing an innovative virtual inertia controller’. Int. Universities' Power Engineering Conf. – UPEC, 2016, pp. 16.
        . Int. Universities' Power Engineering Conf. – UPEC , 1 - 6
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