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Electrification of offshore petroleum installations with offshore wind integration

Author

Listed:
  • Marvik, Jorun I.
  • Øyslebø, Eirik V.
  • Korpås, Magnus

Abstract

Electric power supply to oil and gas platforms is conventionally provided by gas turbines located on the platforms. As these gas turbines emit considerable amounts of CO2 and NOx, it is desirable to find alternative solutions. One alternative is to feed the platforms from the onshore power system via subsea power cables, which already have been implemented on some platforms in the Norwegian part of the North Sea. The paper studies a cluster of petroleum installations in this geographic area, connected to the Norwegian onshore power system through an HVDC voltage link. In the study, an offshore wind farm is also connected to the offshore AC power system. The main focus is investigation of transient stability in the offshore power system, and several fault cases have been studied for different levels of wind power generation.

Suggested Citation

  • Marvik, Jorun I. & Øyslebø, Eirik V. & Korpås, Magnus, 2013. "Electrification of offshore petroleum installations with offshore wind integration," Renewable Energy, Elsevier, vol. 50(C), pages 558-564.
    • Handle: RePEc:eee:renene:v:50:y:2013:i:c:p:558-564
    DOI: 10.1016/j.renene.2012.07.010
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    Citations

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    Cited by:

    1. Zhang, Hongyu & Tomasgard, Asgeir & Knudsen, Brage Rugstad & Svendsen, Harald G. & Bakker, Steffen J. & Grossmann, Ignacio E., 2022. "Modelling and analysis of offshore energy hubs," Energy, Elsevier, vol. 261(PA).
    2. Francisco Haces-Fernandez & Hua Li & David Ramirez, 2018. "Assessment of the Potential of Energy Extracted from Waves and Wind to Supply Offshore Oil Platforms Operating in the Gulf of Mexico," Energies, MDPI, vol. 11(5), pages 1-25, April.
    3. Roussanaly, S. & Aasen, A. & Anantharaman, R. & Danielsen, B. & Jakobsen, J. & Heme-De-Lacotte, L. & Neji, G. & Sødal, A. & Wahl, P.E. & Vrana, T.K. & Dreux, R., 2019. "Offshore power generation with carbon capture and storage to decarbonise mainland electricity and offshore oil and gas installations: A techno-economic analysis," Applied Energy, Elsevier, vol. 233, pages 478-494.
    4. Erick Alves & Santiago Sanchez & Danilo Brandao & Elisabetta Tedeschi, 2019. "Smart Load Management with Energy Storage for Power Quality Enhancement in Wind-Powered Oil and Gas Applications," Energies, MDPI, vol. 12(15), pages 1-15, August.
    5. Tiago A. Antunes & Rui Castro & Paulo J. Santos & Armando J. Pires, 2023. "Standardization of Power-from-Shore Grid Connections for Offshore Oil & Gas Production," Sustainability, MDPI, vol. 15(6), pages 1-21, March.
    6. Seixas, M. & Melício, R. & Mendes, V.M.F., 2014. "Offshore wind turbine simulation: Multibody drive train. Back-to-back NPC (neutral point clamped) converters. Fractional-order control," Energy, Elsevier, vol. 69(C), pages 357-369.
    7. Auld, Alison & Hogg, Simon & Berson, Arganthaël & Gluyas, Jon, 2014. "Power production via North Sea Hot Brines," Energy, Elsevier, vol. 78(C), pages 674-684.
    8. Seixas, M. & Melício, R. & Mendes, V.M.F. & Couto, C., 2016. "Blade pitch control malfunction simulation in a wind energy conversion system with MPC five-level converter," Renewable Energy, Elsevier, vol. 89(C), pages 339-350.
    9. Orlandini, Valentina & Pierobon, Leonardo & Schløer, Signe & De Pascale, Andrea & Haglind, Fredrik, 2016. "Dynamic performance of a novel offshore power system integrated with a wind farm," Energy, Elsevier, vol. 109(C), pages 236-247.

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