巴林ERD井独一无二的BHA设计

Sergio Moncayo, Sandra Szlapa, Ahmed Aljanahi, Sayed Abdelrady
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引用次数: 0

摘要

设计了一种创新的BHA,以适应细长的大位移井眼剖面。精确的底部钻具组合设计对于利用刮板到达井底和循环高效清洁井眼至关重要,从而能够在巴林的大位移水平井中使用Plug & Perf技术进行压裂作业。多级压裂的桥塞射孔作业需要在内径为4”的套管水平井段内下入桥塞,以隔离不同的压裂段。桥塞的最大外径为3.625,在桥塞和套管之间留下了边际间隙,这使得井眼清洗成为主要的风险。对于井眼清洗来说,设计最大外径为3.125 in的超薄BHA并确保到达井底非常重要。扭矩和阻力模拟使用了专门用于钻井ERD井的Extended Reach Architect软件。这种创新的应用程序需要在井图中创建一个虚构的部分,模拟新的BHA设计。在执行阶段,模拟证明了它们的准确性,同时指出了管柱重量丢失的深度,并且管柱直径和重量的变化对继续下入至关重要。这种非常规的BHA设计不仅满足了技术要求,而且还满足了当前工作管库存带来的物流挑战。该团队通过设计多种BHA方案,改变管道的位置、数量、重量和直径,寻找替代方案。创新和精确应用的井工程创造了BHA设计过程,使ERD水平井完井作业成为可能。最终,6口ERD井成功准备进行压裂作业。该BHA设计工作流程的实施将每口井的清洗次数从5次减少到1次,因此每口井的作业时间减少了12天,总共节省了75天。帮助巴林加快石油生产。
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One of a Kind BHA Design for ERD Wells in Bahrain
An innovative BHA was designed to fit slim extended reach wellbore profiles. Precise BHA design was essential to reach the bottom of the well with a scrapper and circulate to clean the hole efficiently for enabling fracking operations with Plug & Perf technology to be performed in extended reach horizontal wells in Bahrain. Plug & Perf operations for multistage fracking required to run plugs through a cased extended horizontal section with an internal diameter of 4" to isolate the different stages to be stimulated. The max OD of the plug was 3.625 in leaving a marginal clearance between the plug and the casing, making hole cleaning the primary risk to deal with. For hole cleaning it was important to design the slim BHA with a maximum OD of 3.125 in and ensure reaching bottom. Torque & drag simulations were run using Extended Reach Architect software specialized for drilling ERD wells. This innovative use of the program required creating a fictional section in the well schematic where the new BHA design was simulated. During the execution phase, the simulations proved their accuracy while pointing out the depths where the string weight is lost, and a change in pipe diameter and weight is crucial to continue running in hole. This unconventional BHA design met not only the technical requirements, but also the logistics challenges coming from the current working pipe inventory. The team looked for alternatives by designing several BHA scenarios, changing the position, amount, weight, and diameter of pipes to be used. Innovation and accurately applied well engineering created a BHA design process that unlocked the possibility to perform the completion operations of ERD horizontal wells. Ultimately 6 ERD wells were successfully prepared for fracking operations. The implementation of this BHA design workflow decreased the number of clean out runs from 5 attempts to 1 successful run in every well, therefore reducing the operational time by 12 days per well, in overall saving 75 days. Helping to bring oil production faster in Bahrain.
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