利用基于云的井工程数据和井筒完整性分析降低尼日尔三角洲修井风险

K. P. Seymour, C. Stuart
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引用次数: 0

摘要

尼日尔三角洲是一个盛产石油和天然气的省份,自20世纪60年代以来,已有近160个油田和1500口井投产。其中许多井已经生产了几十年,现在发现自己掌握在资源有限的新运营公司手中。通过快速计划的修井作业,有强大的商业动力来保持这些井的生产。这些井的历史记录很差,在很多情况下根本不存在,通常只是一张非常简单的A4完井图,缺乏细节和总结。许多修井作业的设计基础和历史早已不复存在,新作业者往往只关注生产套管和管柱。然而,必须考虑完整的井结构和施工历史,因为有些井的设计优化了最小套管位置(13 3/8”浅井),完井时间为9 5/8”。这种设计方法最坏的结果是,如果生产套管在气柱到达地面时失效,井喷和形成陨石坑。提出了一个一般的案例来强调这种风险的现实。在设计验证的背景下,讨论了延长井寿命的风险,以及后期使用方式的改变。回顾了不良井工程数据的原因和挑战,不仅在尼日尔三角洲,而且在全球范围内建立了历史规范。强调了在修井计划过程中跟踪数据的重要性。进一步建议,所有井的受控竣工图,不遗漏套管细节、岩性和关键部件特征(如井口套管悬挂器密封和采油树),应以电子方式创建、云存储,并在进行干预/修井之前作为井筒完整性分析的基础。给出了北海某开发项目的实例。这种系统还应用于确定干预过程中存在哪些关键障碍,如何验证这些障碍,以及如何收集证据,以解决在许多井喷中起根本作用的典型人为因素。关键的是,该系统应在作业期间生成准确的井完整性报告,以跟踪计划的执行情况。介绍了典型的尼日尔三角洲双井眼完井的一般实例。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Using Cloud Based Well Engineering Data and Wellbore Integrity Analysis to Reduce Risk in Niger Delta Workovers
The Niger Delta is a prolific oil and gas province with almost 160 oilfields and 1,500 wells put on production since the 1960s. Many of these wells have been producing for decades and now find themselves in hands of new operating companies of limited resources. There are strong commercial drivers to keep these wells in production through rapidly planned workover operations. The historical records for these wells are poor and in many instances nonexistent, often being no more than a very simplistic A4 completion diagram lacking in details and summary. The basis for design and the history of numerous interventions has long been lost and the focus of new operators is often on only the production casing and the tubing strings. However, it is imperative to consider the full well architecture and construction history because some were design optimized with minimal casing setting 13 3/8" shallow and completing in 9 5/8". Worst case consequence of this design approach is well blowout and cratering if the production casing fails with a gas column to surface. A generic case is presented to emphasize the reality of this risk. The risks of extending well life, compounded by change of use in late life are discussed in the context of design validation. The causes and challenge of poor well engineering data are reviewed, to establish the historical norms in not only the Niger Delta but globally. The importance of tracking down data in the well Intervention planning process is emphasized. It is further proposed that controlled, as-built drawings of all wells, which do not omit casing details, lithology, and critical component features such as wellheads casing hanger seals and Xmas tree should be electronically created, cloud stored and used as a basis for well bore integrity analysis prior to undertaking interventions/workovers. An example from a North Sea Development Project is presented. Such a system should also be used to establish which critical barriers exist during the intervention, how they will be validated, and how is evidence captured in order to address the typical human factors which are fundamental in many blowouts. Critically the system should produce accurate well integrity reports during operations to track compliance with the plan. A generic example for a typical Niger delta dual bore completion well is presented.
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