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首页> 外文会议>Coiled Tubing and Well Intervention Conference and Exhibition >A Coiled-Tubing Perforating Solution Incorporating a Gun Deployment System and Dynamic Underbalanced Technique Improves Well Production in High- Angle Deep-Gas Wells in Saudi Arabia
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A Coiled-Tubing Perforating Solution Incorporating a Gun Deployment System and Dynamic Underbalanced Technique Improves Well Production in High- Angle Deep-Gas Wells in Saudi Arabia

机译:包含枪部署系统和动态不平衡技术的盘管穿孔溶液可提高沙特阿拉伯高角度深气井的良好生产

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Saudi Aramco has recently initiated a change in gas well design in the Ghawar field of Saudi Arabia. The new approach is to drill deviated cased hole gas wells through the reservoir to increase the length of contact of the productive zone and thereby increase production potential. Typical gas wells were drilled as a vertical cased hole through the reservoir or open hole horizontal gas wells. The increased well deviations, measured depths and resultant increase in reservoir sections required a new approach to the perforating solution for these wells to connect them to the gas plants. Various techniques were reviewed, considering safety, operating efficiency and well performance. The final solution was to deploy the perforating systems on electric coiled tubing (CT) and run all the guns in one run using completion insertion and retrieval under pressure (CIRP) as a deployment system, which allowed the guns to be run and pulled under live well conditions without having to kill the well. This paper details the learning curve and lessons learned of the implementation of this technique in five gas wells. The deployment system and pressure control equipment were optimized to satisfy Saudi Aramco’s requirement for three barriers. A CT cleanout run was added before perforation to remove any debris from the wellbore causing a problem to the depth correlation tools. An existing CT tower was used to support the very long wellhead stack, but due to its height limitation a special solution was implemented to enable safe CT operations. A deployment system under live well conditions was used to minimize CT runs, operating time and cost savings. The static underbalance condition was set before running the guns, combined with the dynamic underbalance perforating technique and deep penetrating charge gun design were implemented to optimize the well performance. This technique allowed safe and efficient perforating in a single underbalance run of these five gas wells. The paper also covers the planning of the perforating solution, Health, Safety and Environment (HSE) considerations, equipment selection, operational procedures, job execution and results.
机译:沙特阿美公司最近在沙特阿拉伯的Ghawar领域启动了气井设计的变化。新方法是通过储存器钻出偏离的壳体气井,以增加生产区的接触长度,从而提高生产潜力。典型的气体孔通过储存器或开孔水平气体井作为垂直套管孔钻。增加井差,测量的深度和储存器部分的结果增加需要对这些孔的穿孔解决方案进行新方法,以将它们连接到气体植物。考虑到安全,运营效率和良好性能,审查了各种技术。最终解决方案是在电动盘绕管(CT)上部署穿孔系统,并在一次性插入和在压力(CIRP)下作为部署系统运行一次运行所有枪,这使得枪支才能运行和拉动不必杀死井的情况。本文详述了学习曲线和经验教训在五个气井中实现了这种技术的实施。部署系统和压力控制设备经过优化,以满足沙特阿美公司对三个障碍的要求。在穿孔前添加了CT清洁跑,以从井筒中移除任何碎片,导致深度相关工具的问题。现有的CT塔用于支撑非常长的井口堆叠,但由于其高度限制,实现了特殊解决方案以实现安全CT操作。在实时井条件下的部署系统用于最小化CT运行,操作时间和成本节省。在运行枪之前设定了静音衰减条件,结合动态的卧间穿孔技术,并实施了深度渗透枪设计以优化井的性能。这种技术允许在这五个气井的单个百分比下安全且有效地穿孔。本文还涵盖了穿孔解决方案,健康,安全和环境(HSE)考虑,设备选择,运营程序,工作执行和结果的规划。

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