深水环境下紧急断开钻井隔水管后坐力分析方法

Yanbin Wang, D. Gao, Jinduo Wang
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引用次数: 2

摘要

在深水钻井中,在一些极端的操作条件下,不可避免地要将立管与低隔水管套件(LMRP)和防喷器(BOP)断开。由于立管在正常工作状态下处于拉伸状态,因此弹性势能储存在立管中。因此,隔水管在弹性势能和钻井泥浆在隔水管内排出所产生的摩擦阻力的共同作用下,会像弹簧一样向上运动,称为后坐力响应。钻井隔水管的后坐力分析对深水钻井的安全具有重要意义,由此可以确定钻井隔水管的后坐力响应、主要控制因素以及相应的解决方案。本文建立了二自由度质量-弹簧-阻尼系统的力学模型和控制方程。该模型考虑了钻井液排出时隔水管内壁的摩擦阻力和储存在隔水管内的弹性势能。此外,选择简化为正弦运动和弹簧模型的直接作用张紧器(DAT)作为断开立管的顶边界条件。根据数据中心的结构和工作原理,计算了拉伸力和弹簧刚度。最后,得到了LMRP与防喷器分离后的时程位移。在此基础上,进行了参数敏感性分析。分析结果表明,随着水深的增加和日波振幅的增大,两者碰撞的可能性增大。对于一个确定的立管系统,存在一个最优的升沉运动频率,以实现立管紧急断开。应采取相应措施防止DAT的弹簧刚度下降。此外,立管尺寸对立管反冲响应有综合影响。本文可为隔水管紧急断开的研究提供参考。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Methodology for Recoil Analysis of Emergency Disconnection Drilling Riser in a Deepwater Environment
In deepwater drilling, it is inevitable to disconnect the riser from the Low Marine Riser Package (LMRP) with the blowout preventer (BOP) under some extreme operating conditions. Since the riser is in tensile state under normal working conditions, elastic potential energy is stored in the riser. So, the riser will move upward like a spring under the combined action of the elastic potential energy and the frictional resistance generated by the discharge of drilling mud in riser, which is called recoil response. Recoil analysis of drilling riser is of great significance to the safety of deepwater drilling, from which the recoil response, main controlling factors and corresponding solutions can be defined. In this paper, the mechanical model and governing equations are established based on the mass-spring-damping system with two degrees of freedom. In this model, the frictional resistance on the riser inner wall when the drilling fluid is discharged, and the elastic potential energy stored in the riser are taken into account. In addition, the direct acting tensioner (DAT), which is simplified as sinusoidal motion and spring model, is selected as the top boundary condition of the disconnected riser. The tension force and spring stiffness is calculated based on the configuration and working principle of the DAT. Finally, the time-history displacement of the LMRP after disconnected from the BOP is obtained. On this basis, the parameter sensitivity analysis is presented. Analysis results show that with the increase of water depth and the amplitude of the DAT, the possibility of collision between them rises. For a determined riser system, there is an optimal heave motion frequency for the DAT to implement riser emergency disconnection. Corresponding measures should be taken to prevent the spring stiffness of the DAT from decreasing. Besides, the riser size has a comprehensive effect on the riser recoil response. This paper can provide reference for the research of riser emergency disconnection.
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