HPHT Expandable Liner Hanger Technology with Superior Pressure Integrity

E. Royer, R. Turney
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引用次数: 1

Abstract

As operators in the oil and gas industry continue to search for larger oil deposits in areas that are considered High Pressure and High Temperature (HPHT) environments, manufacturers of liner hanger/packer systems must conceive and validate designs that can support these projects. The XPak™ liner hanger/packer system is an expandable product that offers metal-to-metal and elastomer sealing capabilities at the liner top in host casing, capable of superior hanging capacity and seal integrity for installing casing strings of various lengths. The expansion process is achieved using a multi-piston hydraulic running tool with pressure application to displace an Expander inside the XPak hanger body. The displacement of the Expander inside the XPak hanger body relies on interference between the components to radially grow the hanger body to contact and interfere with the host casing. This interaction provides the sealing and anchoring capability of the XPak system. The Expander provides tieback capability via a polished bore receptacle and remains installed inside the hanger body for the lifetime of the installation. Operators are implementing robust host casing designs with less variance in wall thickness to utilize tubulars with higher burst and collapse ratings than those manufactured to API standard variances. The combination of higher burst pressure ratings for the host casing and limited variance on the inner diameters provides an ideal partner for the XPak system. Expandable products rely on a narrower host casing inner diameter range to create the interference needed for optimum performance, as opposed to conventional liner hanger systems which work over a broader diameter range. An ISO 14310 V0 qualification of a 7-5/8 × 12-1/4 HPHT XPak liner hanger/packer system for a major operator in the Gulf of Mexico successfully achieved testing milestones of 15 ksi internal pressure with a combined loading of 1,000 kips in tension at 375°F. The system was also qualified at a low temperature of 60°F reaching a successful test pressure of 21.75 ksi internally with a combined tension load of 1,000 kips. These testing requirements were provided in the customer's statement of requirements to handle extreme well loading conditions. FEA modeling is the primary tool for XPak design and focuses primarily on identifying and predicting material strain to help determine the system capabilities under simulated pressure and loading conditions. The distinct geometry and controlled deformation of the hanger body during expansion are simulated using FEA software to provide guidance to meet design parameters to reach high levels of performance. The initial conceptual design is taken through a complete range of potential well scenarios including: casing inner diameter ranges, maximum and minimum setting forces, geometric tolerancing, friction factors, and transient thermal loading. The results are compiled and reviewed to determine the optimal design model to satisfy the customer's requirements. Validation testing and field installation performance for this product line has been successful. The use of analytical tools for design along with improvements in material options and manufacturing processes has been instrumental in the continued growth of the XPak liner hanger/packer system.
高压高压膨胀尾管悬挂器技术,具有优异的压力完整性
随着油气公司不断在高压高温(HPHT)环境中寻找更大的油藏,尾管悬挂/封隔器系统的制造商必须构思并验证能够支持这些项目的设计。XPak™尾管悬挂/封隔器系统是一种可扩展的产品,可在主套管尾管顶部提供金属对金属和弹性体密封能力,具有出色的悬挂能力和密封完整性,可安装各种长度的套管管柱。膨胀过程是通过多活塞液压下入工具和压力应用来取代XPak悬挂体内的膨胀器来实现的。XPak悬挂体内部膨胀器的位移依赖于组件之间的干涉,从而使悬挂体呈放射状增长,与主套管接触并干扰。这种相互作用为XPak系统提供了密封和锚定能力。膨胀器通过抛光的孔容提供回接功能,并在安装的整个生命周期内保持安装在悬挂器体内。作业者正在实施坚固的主机套管设计,其壁厚变化较小,使用的管柱比按照API标准生产的管柱具有更高的爆裂和坍塌等级。宿主套管具有较高的爆裂压力额定值,内径变化有限,是XPak系统的理想合作伙伴。与传统的尾管悬挂系统相比,可膨胀型悬挂系统依靠较窄的套管内径范围来产生最佳性能所需的干扰,而传统的尾管悬挂系统则工作在更宽的直径范围内。7-5/8 × 12-1/4 HPHT XPak尾管悬挂/封隔器系统通过ISO 14310 V0认证,在375°F的压力下,成功实现了15 ksi内压和1000 kips张力的测试目标。该系统在60°F的低温条件下也获得了合格的测试,内部压力为21.75 ksi,总张力载荷为1,000 kips。这些测试要求在客户的需求声明中提供,以处理极端的井负载条件。FEA建模是XPak设计的主要工具,主要侧重于识别和预测材料应变,以帮助确定系统在模拟压力和负载条件下的能力。利用有限元分析软件模拟了悬挂体在膨胀过程中不同的几何形状和受控变形,为满足设计参数提供指导,以达到高水平的性能。最初的概念设计考虑了一系列潜在的井况,包括套管内径范围、最大和最小坐封力、几何公差、摩擦系数和瞬态热载荷。对结果进行汇编和审查,以确定满足客户要求的最佳设计模型。该生产线的验证测试和现场安装性能都是成功的。XPak尾管悬挂/封隔器系统的持续发展得益于分析工具的使用,以及材料选择和制造工艺的改进。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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