Single Trip Sand Control and Cementing System

Nicholas Moses, E. Ismayilov, Edwin Newn, Emmanuel Mogga, Chunlei Zou, Jeremie Poizat, Gordon Milne, I. Sanni, Stewart Thomson, Blayne Haubrich
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Abstract

The operator of field S initiated a project with a key objective to unlock and increase oil recovery while maximizing the economical oil ultimate recovery and maintaining a daily production with a ceiling unit development cost. The targeted sandstone reservoirs are shallow with unconsolidated formation which require active sand control. To achieve the objectives, a Single Trip Sand Control and Cementing System was developed by the service provider utilizing existing proven technology which was adapted to be a fit for purpose solution. The main driver in developing the single trip system was operational simplicity. The high-level procedure of the system is: Drill open hole from surface to target depth in a single run. Make up lower completion assembly and production casing and run to target depth. In the same trip, set production packer and release service string. Gravel pack the lower completion or install as a stand-alone screens completion and cement the production casing in place before pulling out of hole. Once the single trip system was designed and developed, a detailed system integration testing was carried out to ensure that the technology performed as expected. The turnaround time from design to execution was reduced tremendously by utilizing existing proven technology with minimal modification required. From there, 2 wells were identified for a pilot technology trial where this novel system was implemented. The execution of these 2 wells was successful with the expected learning curve of implementing a new system. One of the key findings were the robustness of the system as it was applied in a well with higher than normal doglegs, highly deviated shallow reservoir and the sand screens were run through extended open hole shale sections which would have been cased off in a conventional completion approach. Additionally, the single trip approach allows for further optimization with multi-skilling personnel, and this led to an improved operational efficiency. Post well completion, the 2 wells have been successfully put on production and are producing sand free. This unconventional approach can unlock more marginal reserves that were previously not feasible to be developed economically.
单趟防砂和固井系统
S油田的运营商启动了一个项目,其主要目标是解锁和提高采收率,同时最大限度地提高经济原油最终采收率,并在单位开发成本上限的情况下保持日产量。目标砂岩储层为浅层松散地层,需要积极防砂。为了实现这一目标,服务提供商利用现有的成熟技术开发了一套单趟防砂和固井系统,并对其进行了调整,以适应特定的解决方案。开发单趟下入系统的主要动力是操作简单。该系统的高级流程为:单趟钻从地面到目标深度的裸眼。组装下部完井组合和生产套管,下入目标深度。在同一趟下入中,坐封生产封隔器并释放服务管柱。砾石充填下部完井或作为独立筛管完井安装,并在出井前将生产套管固井到位。一旦设计和开发了单趟下入系统,就会进行详细的系统集成测试,以确保该技术达到预期效果。从设计到执行的周转时间通过利用现有的经过验证的技术而大大减少了所需的修改。在此基础上,确定了两口井进行技术试验,并实施了该系统。这两口井的作业都取得了成功,并达到了实施新系统的预期学习曲线。其中一个重要发现是该系统的稳健性,因为它适用于比普通狗腿井高、大斜度的浅层油藏,并且防砂筛管下入了常规完井方法下入的大裸眼页岩段。此外,单趟下入的方法允许多技能人员进一步优化,从而提高了作业效率。完井后,这两口井已成功投产,并开始无砂生产。这种非常规的方法可以释放更多的边际储量,而这些储量以前是不可行的,无法进行经济开发。
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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