Power cable stresses caused by transmission line faults in next generation VSC-MMC systems

Philipp Tünnerhoff; Philipp Ruffing; Ralf Puffer

Power cable stresses caused by transmission line faults in next generation VSC-MMC systems

PDF
3.05MB
HTML
68.40Kb
XML
62.58Kb

Author(s): Philipp Tünnerhoff¹ ; Philipp Ruffing¹ ; Ralf Puffer¹
- Affiliations: 1: Institute for High Voltage Technology, RWTH Aachen University , Aachen , Germany
Source: Volume 2019, Issue 16, March 2019, p. 2318 – 2323
DOI: 10.1049/joe.2018.8628 , Online ISSN 2051-3305

This is an open access article published by the IET under the Creative Commons Attribution-NoDerivs License (http://creativecommons.org/licenses/by-nd/3.0/)

Received 24/08/2018, Accepted 19/09/2018, Published 26/10/2018

Full text loading...

/deliver/fulltext/joe/2019/16/JOE.2018.8628.html;jsessionid=fooa51797as29.x-iet-live-01?itemId=%2fcontent%2fjournals%2f10.1049%2fjoe.2018.8628&mimeType=html&fmt=ahah

References

1. 1)
  - 1. ENTSO-E: ‘Ten-year network development plan 2016 – executive report’, 2016.
2. 2)
  - 2. Cao, J., Cai, Y.: ‘HVDC in China’. 2013 EPRI HVDC & FACTS Conf. Proc., Palo Alto, USA, August 2013, pp. 539–561.
3. 3)
  - 3. U.S. Department of Energy, Grid Tech Team: ‘Applications for high-voltage direct current transmission technologies’. Proc. Document, Arlington, USA, 2013.
4. 4)
  - 4. Sharifabadi, K., Harnefors Nee, L.H.-P., et al: ‘Design, control, and application of modular multilevel converters for HVDC transmission systems’ (Wiley-IEEE Press, Hoboken, USA, 2016).
5. 5)
  - 5. Dorn, J., Gambach, H., Strauss, J., et al: ‘Trans bay cable – a breakthrough of VSC multilevel converters in HVDC transmission’. CIGRE Colloquium on HVDC and Power Electronic Systems, San Francisco, USA, March 2012.
6. 6)
  - 6. Egan, J., O'Rourke, P., Sellick, R., et al: ‘Overview of the 500 MW EirGrid east-west interconnector, considering system design and execution-phase issues’. Proc. 48th Int. Universities' Power Engineering Conf., Dublin, Ireland, August 2013, pp. 81–86.
7. 7)
  - 7. Labra Francos, P., Sanz Verdugo, S., Fernández Álvarez, H., et al: ‘INELFE – Europe's first integrated onshore HVDC interconnection’. IEEE Power and Energy Society General Meeting, San Diego, USA, July 2012.
8. 8)
  - 8. 50Hertz Transmission GmbH, Amprion GmbH, TenneT TSO GmbH, TransnetBW GmbH, ‘Offshore Network Development Plan 2030, Version 2017, Second Draft of the Transmission System Operators’, 2017.
9. 9)
  - 9. Zhou, J., Li, H., Xie, R., et al: ‘Research of DC circuit breaker applied on Zhoushan multi-terminal VSC-HVDC project’. Proc. 2016 IEEE PES Asia-Pacific Power & Energy Engineering Conf., Xi'an, China, October 2016, pp. 1636–1640.
10. 10)
  - 10. Karawita, C., Suriyaarachchi, D.H.R., Mohaddes, M.: ‘A controlled DC fault clearance mechanism for full-bridge MMC VSC converters’. CIGRÉ Int. Symp: Across Borders – HVDC Systems and Market Integration, Lund, Sweden, May 2015.
11. 11)
  - 11. Amprion GmbH: ‘Underground cables in the transmission grid – an innovative technology for grid expansion’, 2017.
12. 12)
  - 12. Rusek, B., Vennemann, K., Velásquez, J., et al: ‘Special requirements regarding VSC converters for operation of hybrid AC/DC overhead lines’. 45th CIGRE Sessions, Paris, France, August 2014.
13. 13)
  - 13. CIGRÉ, Technical Brochure 496: ‘Recommendations for testing DC extruded cable systems for power transmission at a rated voltage up to 500 kV’, 2012.
14. 14)
  - 14. IEC 62895 (Draft): ‘High voltage direct current (HVDC) power transmission – cables with extruded insulation and their accessories for rated voltages up to 320 kV for land applications – test methods and requirements’, 2017.
15. 15)
  - 15. Mazzanti, G., Marzinotto, M.: ‘Extruded cables for high-voltage direct-current transmission – advances in research and development’ (Wiley-IEEE Press, Hoboken, USA, 2013).
16. 16)
  - 16. Lundberg, P., Johansson, F., Vestergaard, O., et al: ‘Maritime link – enabling high availability with a VSC HVDC transmission’. CIGRE Study Committees A3, B4 & D1 Colloquium, Winnipeg, Canada, September 2017.
17. 17)
  - 17. Ingemansson, D., Wheeler, J.D., MacLeod, N.M., et al: ‘The south–west scheme: a new HVAC and HVDC transmission system in Sweden’. 10th Int. Conf. AC and DC Power Transmission, Birmingham, UK, December 2012.
18. 18)
  - 18. Kiessling, F., Nefzger, P., Nolasco, J.F., et al: ‘Overhead power lines – planning, design, construction’ (Springer, Berlin, 2003).
19. 19)
  - 19. Küchler, A.: ‘High voltage engineering – fundamentals, technology, applications’ (Springer Vieweg, Berlin, 2017).
20. 20)
  - 20. Petino, C., Eichhoff, D., Tünnerhoff, P., et al: ‘System protection during contact faults in hybrid AC/DC transmission systems’. CIGRÉ Int. Symp: Across Borders – HVDC Systems and Market Integration, Lund, Sweden, May 2015.
21. 21)
  - 21. Sivanagaraju, S., Satyanarayana, S.: ‘Electric power transmission and distribution’ (Paerson Education, New Delhi, 2009).
22. 22)
  - 22. CIGRÉ, Technical Brochure 604: ‘Guide for the development of models for HVDC converters in a HVDC grid’, 2014.
23. 23)
  - 23. Morched, A., Gustavsen, B., Tartibi, M.: ‘A universal model for accurate calculation of electromagnetic transients on overhead lines and underground cables’, IEEE Trans. Power Deliv., 1999, 14, (3), pp. 1032–1038.
24. 24)
  - 24. Häfner, J., Jacobson, B.: ‘Proactive hybrid HVDC breakers – a key innovation for reliable HVDC grids’. CIGRÉ 2011 Bologna Symp: The Electric Power System of the Future – Integrating supergrids and microgrids, Bologna, Italy, September 2011.

Login

Not registered yet?

Share

Tools

Login to add to favourites

Key

Power cable stresses caused by transmission line faults in next generation VSC-MMC systems

References

Related content