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Sea ice management for oil and gas platforms in the Bohai Sea

Autorzy
Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
Bohai is a typical marginal oil field in an ice region, where most of the oil and gas platforms are economical. Sea ice is the main factor that affects the safety of oil and gas platforms in Bohai. Due to the complexity of the ice load and ice-induced vibrations, there are large security risks when developing Bohai oil and gas in the winter. It is difficult to ensure the safe production of oil and gas in winter using existing sea ice disaster warning technologies. Based on winter oil and gas production in the Bohai Sea’s Liaodong Bay, a set of suitable sea ice management systems is proposed in this paper. These systems integrate sea ice monitoring, risk assessment and risk prediction technologies. Based on the risk warning system, an ice management model of a Bohai ice platform has been put into practice, which ensures the safe production of the platform in winter.
Rocznik
Tom
S 2
Strony
195--204
Opis fizyczny
Bibliogr. 20 poz., rys., tab.
Twórcy
autor
  • School of Ocean Science & Technology Dalian University of Technology Panjin, China
autor
  • School of Ocean Science & Technology Dalian University of Technology Panjin, China
autor
  • School of Ocean Science & Technology Dalian University of Technology Panjin, China
autor
  • School of Ocean Science & Technology Dalian University of Technology Panjin, China
Bibliografia
  • 1. Engelbrekston A.: Dynamic ice loads on lighthouse structures, Proc.4th Int. Conf. on Port and Oc. Engrg. under Arctic Conditions, St. John’s Canada, 1977, 2:p.654-864.
  • 2. Määttänen M, Reddy D, Arockiasamy M, et al.: Icestructure interaction studied on a lighthouse in the Gulf of Bothnia using response spectrum and power spectral density function analyses. Proc.4th International Conference on Port and Ocean Engineering under Arctic Conditions Newfoundland, Canads. 1977, p.321-334.
  • 3. J Haugen, L Imsland, S Loset, R Skjetne.: Ice Observer System for Ice Management Operations, Proceedings of the Twenty-first (2011) International Offshore and Polar Engineering Conference, 2011, p.1120-1127.
  • 4. R Haimelin, F Goerlandt, P Kujala, B Veitch.: Implications of novel risk perspectives for ice management operations. Cold Regions Science & Technology, No 1, Vol.133, 2016, p.82-93.
  • 5. Charles C. Ryerson.: Ice protection of offshore platforms. Cold Regions Science and Technology, No 1, Vol.65, 2011, p.97-110.
  • 6. ABRAMOV, Valentin A.: Russian iceberg observations in the Barents Sea, 1933–1990. Polar Research, No 2, Vol.11, 1992, p.93-97.
  • 7. Eik, K.: Review of experiences within ice and iceberg management. Journal of Navigation, No4, Vol.61, 2008, p. 557-572.
  • 8. AR Mahoney, H Eicken, AG Gaylord, R Gens.: Landfast sea ice extent in the Chukchi and Beaufort Seas the annual cycle and decadal variability. Cold Regions Science & Technology, No 1, Vol.103, 2014, p.41-56.
  • 9. K Eik, OT Gudmestad.: Iceberg management and impact on design of offshore structures. Cold Regions Science & Technology, No 1-2, Vol.63, 2010, p.15-28.
  • 10. K Eik.: Sea-ice management and its impact on the design of offshore structures. Cold Regions Science & Technology, No 2, Vol.65, 2011, p.172-183.
  • 11. Renat Yulmetov, Aleksey Marchenko, Sveinung Loset.: Iceberg and sea ice drift tracking and analysis off northeast Greenland. Ocean Engineering, No 1, Vol.123, 2016, p.223-237.
  • 12. Robert S. Pritchard, Guang Li, R.O Davis.: A deterministicstatistical sea ice drift forecast model. Cold Regions Science and Technology, No 1, Vol.s76-77, 2011, p.52-62.
  • 13. JV Lukovich, C Bélanger, DG Barber, Y Gratton.: On coherent ice drift features in the southern Beaufort sea. Deep Sea Research Part I Oceanographic Research Papers, No 10, Vol.92, 2014, p.56-74.
  • 14. McClintock J, Bullock T, McKenna R., Ralph F and Brown R.: Greenland Iceberg Management: Implications for Grand Banks Management Systems. PERD/CHC Report, 2002, p.20–65.
  • 15. Rudkin P, Boldrick C and Barron Jr P.: PERD Iceberg Management Database. PERD/CHC Report, 2005, p.20-72.
  • 16. Duan Menglan, Fang Huacan.: The survey conclusions of Bohai second platform was pulled down by Ice. Oil Field Equipment, No 3,Vol.23, 1994, p.1-4.
  • 17. Yue Qianjin, Bi Xiangjun.: Ice-induced jacket structure vibrations in Bohai Sea. Journal of Cold Regions Engineering, No.2, Vol.14, 2001, p.81-92.
  • 18. Yue Qianjin, Zhang Dayong, Liu Yuan, Tong Baolin.: Failure modes analysis of ice-resistant compliant structures based on monitoring oil platforms in Bohai Gulf. The Ocean Engineering, No 1, Vol.26, p.18-23.
  • 19. Zhang Dayong.: Performance based on risk design research of ice-resistant jacket structures. Dalian University of Technology, 2007.
  • 20. Ji Shunying, Shen Hongdao, Wang Zhilian, Xi Meili, Yue Qianjin.: Dynamics sea ice constitutive model of viscoelastic plastic based on Mohr-Coulomb criterion. Acta Oceanologica Sinica, No 4, Vol.27, 2005, p.19-30.
Uwagi
PL
Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2018).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-d3cbc781-2336-45a0-945f-ad83ee442a29
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