http://iet.metastore.ingenta.com
1887

access icon openaccess Research of controlled switching strategy to restrain inrush current during the energisation of converter transformer

Loading full text...

Full text loading...

/deliver/fulltext/joe/2019/16/JOE.2018.8694.html;jsessionid=1gonmpa40sxxb.x-iet-live-01?itemId=%2fcontent%2fjournals%2f10.1049%2fjoe.2018.8694&mimeType=html&fmt=ahah

References

    1. 1)
      • 1. Jamali, M., Mirzaie, M., Azghar Gholamian, S.: ‘Calculation and analysis of transformer inrush current based on parameters of transformer and operating conditions’, Electron. Electr. Eng., 2011, 109, (3), pp. 1720.
    2. 2)
      • 2. Steurer, M., Fröhlich, K.J.: ‘The impact of inrush currents on the mechanical stress of high voltage power transformer coils’, IEEE Trans. Power Deliv., 2002, 17, (1), pp. 155160.
    3. 3)
      • 3. Specht, T.R.: ‘Transformer inrush and rectifier transient currents’, IEEE Trans. Power Appar. Syst., 1969, PAS-88, (4), pp. 269276.
    4. 4)
      • 4. Rioual, M., Digard, H., Martin, C.: ‘Energizing and de-energizing of a 250 MVA transformer of a pumped storage power-plant: modelling and its validation by on site tests’. IEEE Power & Energy Society General Meeting, Vancouver, Canada, 2013, pp. 17.
    5. 5)
      • 5. Zhu, T., Wang, C., Zhang, X., et al: ‘Analysis of impacts on HVDC transmission systems when converter transformers are energized’, Autom. Electr. Power Syst., 2007, 31, (23), pp. 108112.
    6. 6)
      • 6. Gong, M., Xia, W., Li, G., et al: ‘New judgment to identify sympathetic inrush and inrush current’, Power Syst. Prot. Control, 2012, 40, (18), pp. 139143.
    7. 7)
      • 7. Tan, T., Hao, Z., Wang, D., et al: ‘Residual flux estimation method for three-phase transformers without zero-sequence circuit on the switch-off side’. Power and Energy Engineering Conf. (APPEEC), Xi'an, China, 2016, pp. 19081912.
    8. 8)
      • 8. Fang, S., Ni, H., Lin, H., et al: ‘A novel strategy for reducing inrush current of three-phase transformer considering residual flux’, IEEE Trans. Ind. Electron., 2016, 63, (7), pp. 44424451.
    9. 9)
      • 9. Cipcigan., L., Xu, W., Dinavahi, V.: ‘A new technique to mitigate inrush current caused by transformer energization’. Power Engineering Society Summer Meeting, Chicago, USA, 2002, vol. 1, pp. 570574.
    10. 10)
      • 10. Reis, A., de Oliveira, J.C., Apolonioet, R., et al: ‘A controlled switching methodology for transformer inrush current elimination: theory and experimental validation’. 11th Int. Conf. Electrical Power Quality and Utilisation, Lisbon, 2011, pp. 16.
    11. 11)
      • 11. Brunke, J.H., Frohlich, K.J.: ‘Elimination of transformer inrush currents by controlled switching. I. Theoretical considerations’, IEEE Trans. Power Deliv., 2001, 16, (2), pp. 276280.
    12. 12)
      • 12. Brunke, J.H., Frohlich, K.J.: ‘Elimination of transformer inrush currents by controlled switching. II. Application and performance considerations’, IEEE Trans. Power Deliv., 2001, 16, (2), pp. 281285.
    13. 13)
      • 13. Taylor, D.I., Law, J.D., Johnson, B.K., et al: ‘Single-phase transformer inrush current reduction using prefluxing’, IEEE Trans. Power Deliv., 2012, 27, (1), pp. 245252.
    14. 14)
      • 14. EMTP, Electro-Magnetic Transient Program: ‘Rule Book’ (Bonneville Power Administration, Portland, OR, 1980), pp. 227339.
http://iet.metastore.ingenta.com/content/journals/10.1049/joe.2018.8694
Loading

Related content

content/journals/10.1049/joe.2018.8694
pub_keyword,iet_inspecKeyword,pub_concept
6
6
Loading
This is a required field
Please enter a valid email address