Abstract
A multibody system including a drilling riser system, tensioners and a floating platform is key equipment for offshore oil and gas drilling. Most of the previous studies only focus on the drilling riser system rather than the multibody system. Mechanical characteristics of the deepwater drilling riser system cannot be analyzed accurately in a simplified model. Therefore, a three-dimensional multibody analysis program is developed. The static and dynamic characteristics of the deepwater drilling riser system under different platform motions are analyzed based on the developed program. The results show that the static displacement of the riser system with tensioners is smaller than that without tensioners, which means the tensioners can suppress the deformation of the riser system. Under surge and sway motions of the platform, the dynamic displacement of the riser system with tensioners is also smaller than that without tensioners due to the tensioner suppression effect. Besides, the heave motion induces a uniform axial vibration of the riser system, while roll and pitch motions excite the riser system to vibrate laterally. Compared with the stress amplitude due to surge and sway motions, the stress amplitude of the riser system due to heave, roll and pitch motions is relatively small but cannot be neglected.
Highlights
A drilling riser system is a key component connecting the drilling platform with subsea wellhead in offshore drilling engineering
The top end of the riser system is hung on the drilling platform via tensioners, and the bottom end of the riser system is connected to the subsea wellhead via lower marine riser package (LMRP) and blowout preventer (BOP) (Chen et al 2013)
Problems that involve mechanical analysis of a deepwater drilling riser system based on multibody system dynamics are addressed in this study
Summary
A drilling riser system is a key component connecting the drilling platform with subsea wellhead in offshore drilling engineering. A series of static and dynamic analysis was conducted to study the mechanical behavior of the riser system based on the simplified model (Patel and Seyed 1995; Chen et al 2013; Zhou and Xu 2018; Zhang et al 2019). A coupling model including the riser system and tensioners is introduced to simulate the axial dynamic behavior of the riser system. The multibody system is simplified into a drilling riser system or a riser/tensioner coupling system in which tensioners are often simulated by spring elements for axial dynamic analysis of a riser system. Besides the riser recoil analysis based on multibody dynamics, an extensional multibody analysis model including a drilling riser system, tensioners and a floating platform needs to be established to study the static and dynamic mechanical behavior of the drilling riser system.
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