Abstract
The jack-up unit is one of the best drilling platforms in offshore oil fields with water depth shallower than 150 meters. As the most pivotal component of the jack-up unit, the leg system can directly affect the global performance of a jack-up unit. Investigation shows that there are three kinds of leg structure forms in the world now: the reverse K, X, and mixing types. In order to clarify the advantage and defects of each one, as well as their effect on the global performance of the jack-up unit, this paper commenced to study performance targets of a deepwater jack-up unit with different leg systems (X type, reverse K type, and mixing type). In this paper a typical leg scantling dimension and identical external loads were selected, detailed finite element snalysis (FEA) models were built to simulate the jack-up unit’s structural behavior, and the multi-point constraint (MPC) element together with the spring element was used to deal with the boundary condition. Finally, the above problems were solved by comparative analysis of their main performance targets (including ultimate static strength, dynamic response, and weight).
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Xiangang Ren was born in 1982. He is a PhD candidate at Harbin Engineering University. His current research interests include design and manufacture of ships and offshore architecture.
Yong Bai was born in 1963. He is a professor at the Department of Civil Engineering, Zhejiang University. His current research interests include riser and pipeline design and analysis, offshore structures risk, and reliability analysis.
Lusheng Jia was born in 1986. He is a master’s student of engineering at Harbin Engineering University. His current research interests include design and manufacture of ships and offshore architecture.
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Ren, X., Bai, Y. & Jia, L. Comparative analysis of a jack-up drilling unit with different leg systems. J. Marine. Sci. Appl. 11, 368–377 (2012). https://doi.org/10.1007/s11804-012-1145-y
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DOI: https://doi.org/10.1007/s11804-012-1145-y