注水井和注气井冷却圈闭环空压力热行为的结构分析

N. M. Júnior, Cristiano Eduardo Agostini, Cleidilson Moura dos Santos, Roger Savoldi Roman, E. Schnitzler, Mateus Dias Magalhães, M. Ferreira, C. O. Souza
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摘要

本文介绍了一项综合结构分析的结果,该分析评估了巴西盐下油田一口注入井的热瞬态压力行为对被困环空的影响,主要是由井失效的物理证据引起的。研究重点是井筒失效过程中径向的瞬态热流,以及在给定套管设计方法下径向热流对套管设计安全系数的影响。在调查该井完整性故障时,考虑到井的施工历史,进行了热分析,但使用世界级商业软件的标准模拟不足以解释故障。因此,为了评估每次作业期间的设计安全系数,对套管和油管进行了改进的热分析。这种改进的热分析包括将每个操作分成短时间步,以便捕捉短瞬态行为。研究发现,在较短的瞬态时间内,坍塌应力达到了高于先前标准稳态模型预测的值。这种结果基本上与径向热流引起的瞬态效应有关。在理论研究的基础上,将其与密闭环空中的井下P&T传感器进行了比较,建立了相关性,并表明了这种分析的重要性。在某些情况下,当封闭环空在套管层之间受到渐进式和非比例冷却效应时,套管内部可能会出现突然的压降,而外部的压降却没有达到相同的压降,这可能导致给定管柱的外部压差很大。在具有多个封闭环空的井中,例如在超深水项目中,这种类型的分析代表着更大的挑战。目前获得的结果表明,在某些情况下,永久和瞬态径向热流是不可忽视的,因此,为井设计开辟了新的领域,特别是当油管和多个套管被困环空遭受快速瞬态冷却时。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Structural Analysis of Thermal Behavior On Cooling Trapped Annular Pressure In Water and Gas Injection Wells
This paper presents the findings of a comprehensive structural analysis in which the influence of thermal transient pressure behavior on the trapped annuli in an injection well in a Brazilian pre-salt field was assessed, mainly motivated by physical evidence of a well failure. The study focus on a transient heat flow in radial direction during a well failure investigation, and its impact in tubular design safety factor under a given casing design methodology. During the investigation of this well integrity failure, a thermal analysis was performed considering the well construction history, but standard simulations using a world-class commercial software was not enough to explain the failure. Thus, a modified thermal analysis for casing and tubing was made in order to evaluate the design safety factor during each operation. This modified thermal analysis consists in splitting each operation in short time steps, in order to capture the short transient behavior. It was found that, during short transient time, the collapse stresses reached higher values than predicted in the previous standard steady-state modeling. Such result is basically related to the transient effect caused by radial heat flow. Based on theoretical studies and comparing them to downhole P&T sensors in confined annuli, a correlation was stablished and showed the importance of this type of analysis. In certain scenarios, where the confined annuli are subjected to progressive and non-proportional cooling down effect between the casing layers, a sudden pressure drop may occur in the internal side of the casing, without reaching the same pressure drop on the external side, which can lead to a dramatic external differential pressure for a given string. In wells with multiple confined annuli, such as in ultra-deepwater projects, this type of analysis represents a greater challenge. The results obtained so far have shown that the permanent and transient radial heat flow cannot be neglected in some scenarios and, therefore, open a new frontier for well design, especially when the tubing and multiple casing trapped annuli are subjected to rapid transient cool down.
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