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Citation:
 HAO Jun,SUN Yu-zhu,WU Zi-quan and Alan WANG.Model test vs virtual simulation of a VLCC FPSO hookup[J].Journal of Marine Science and Application,2009,(2):137-143.
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Model test vs virtual simulation of a VLCC FPSO hookup

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Title:
Model test vs virtual simulation of a VLCC FPSO hookup
Author(s):
HAO Jun SUN Yu-zhu WU Zi-quan and Alan WANG
Affilations:
Author(s):
HAO Jun SUN Yu-zhu WU Zi-quan and Alan WANG
Offshore Oil Engineering Co. Ltd., Tianjin 300452, China
Keywords:
FPSO SYMS model test virtual simulation
分类号:
-
DOI:
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Abstract:
This paper describes the model test and the virtual simulation respectively for the VLCC class FPSO hookup, as well as addresses their different applications to the mating operation between the FPSO and the soft yoke mooring system (SYMS) in extremely shallow water. The scope of the model test and the virtual simulation covers various installation stages including a series of positioning trials, positioning keeping and temporary mooring to the pre-installed SYMS mooring tower, pendulum mating, and yoke ballasting to storm-safe. The model test is to accurately verify bollard pull capacity to keep the FPSO in position and assess motion responses and mooring loads for the FPSO and installation vessels during various installation stages. The virtual simulation is to provide a virtual-reality environment, thus realistically replicating the hookup operation at the Simulation Test Center (STC) facility and identifying any deficiencies in key installation personnel, execution plan, or operation procedures. The methodologies of the model test and the virtual simulation addressed here can be easily extended to the deepwater applications such as positioning and installation operations of various floating systems.

References:

[1] XIAO L F, YANG J M, HU Z Q. Low frequency and wave forces and wave induced motions of a FPSO in shallow water[C]// Proceedings of 26th OMAE. San Diego, 2007: OMAE2007-29047.
[2] WANG K, WANG X. Study of wave drift forces affecting FPSO systems[J]. Journal of Harbin Engineering University, 2008, 29(12): 1261-1265(in Chinese).
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[4] LI H, REN H L, LIU R M, et al. 3-D hydroelastic method for analysis of motion and wave loads of an FPSO ship[J]. Journal of Harbin Engineering University, 2008, 29(8): 789-793(in Chinese).
[5] STC B V. SAAR\STC0559 FPSO positioning in the Bohai Bay, simulator based testing and training[S]. Rotterdam, 2008.

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Last Update: 2016-12-02