Successful Remediation of Sustained Casing Pressures in Gas Cap Injector Wells with the Use of Flexible and Self Healing System

Bipin Jain, Abhijeet Tambe, Dylan Waugh, M. Munozrivera, Rianne Campbell
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Abstract

Several injection wells in Prudhoe Bay, Alaska exhibit sustained casing pressure (SCP) between the production tubing and the inner casing. The diagnostics on these wells have shown communication due to issues with casing leaks. Conventional cement systems have historically been used in coiled-tubing-delivered squeeze jobs to repair the leaks. However, even when these squeeze jobs are executed successfully, there is no guarantee in the short or long term that the annular communication is repaired. Many of these injector wells develop SCP in the range of 300-400 psi post-repair. It has been observed that the SCP development can reoccur immediately after annulus communication repair, or months to years after an injector well is put back on injection. Once SCP is developed the well cannot be operated further. A new generation of cement system was used to overcome the remedial challenge presented in these injector wells. This document provides the successful application of a specialized adaptive cement system conveyed to the problematic zone with the advantage of using coiled tubing equipment for optimum delivery of the remedial treatment.
使用柔性自修复系统成功修复气帽注入井的持续套管压力
阿拉斯加Prudhoe Bay的几口注水井在生产油管和内套管之间表现出持续的套管压力(SCP)。对这些井的诊断显示,由于套管泄漏问题,这些井存在通信问题。传统的水泥系统一直用于连续油管的挤压作业,以修复泄漏。然而,即使这些挤压作业成功执行,也不能保证在短期或长期内修复环空通信。许多注入井在修复后的SCP范围为300- 400psi。据观察,SCP的发展可以在环空通信修复后立即发生,也可以在注入井重新注入后数月至数年发生。一旦SCP被开发出来,该井就不能进一步操作。新一代的水泥系统被用于克服这些注入井的补救挑战。本文介绍了一种特殊的自适应水泥系统在问题区域的成功应用,该系统具有使用连续油管设备进行最佳补救处理的优势。
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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