First Time Application of Bit with Unique-Geometry Cutting Element and Step Change Drilling Automation Software & Torque Reduction System Set New Performance Benchmarks in Northern Kuwait Fields

Dakhil Al-Enezi, Talal Al-Wehaidah, B. Goswami, Mohammed Al-Salamin, A. Salaheldin, Feraz Hosein, Manuel Centeno, Alexander Dundin, Ebrahim Albinali, Rodrigo Gallo, Ayomarz Jokhi, Anant Carasco, Rashad Mohiey
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Abstract

A new cutting element technology bit along with new drilling automation software provides a solution to drill the challenging 12 ¼" section in two fields in Northern Kuwait. The 12 ¼" section was drilled using directional BHA building the angle between 25 to 30 degrees. The formations are characterized to be interbedded limestone and reactive shale causing high downhole vibrations, high torque and stick and slip which affects the buildup capability of the directional tool and overall performance in this section. The main objective is to improve drilling performance by developing an integrated solution to eliminate the downhole tool failures and increase the rate of penetration. The engineering team incorporated a unique geometry into the bit cutting elements design and developed the Ridged Diamond Element (RDE) bit which has new cutting element technology and different geometry than the standard PDC cutters. The ridge shape cutter face helps to reduce the reactive torque generated through the cutter face. The ridge shape cutter face also helps in improving rate of penetration (ROP) by efficient rock removal. With regards to the drilling automation software, the objective is to determine (through the analysis of surface data) the best drilling parameters of RPM/WOB to achieve the maximum ROP for each formation while at the same time detecting and mitigating drilling dysfunctions such as shocks, vibrations and stick slip. The system was operated in advice mode as it will be explained more in detailed throughout the paper. Torque reduction system technology was used to reduce the surface torque variation and reduce the stick and slip by instantaneously altering surface string rotation (RPM). The new cutting element technology in combination with the drilling automation software provide an integrated solution to the challenges faced in the drilling operations for this 12-1/4" hole section. On the first test well, RDE bit and the drilling automation software were used with a motorized rotary steerable system (RSS), to drill 1,060 feet in 15.27 on-bottom hours with an effective ROP of 69.4 feet/hour. The second test well was in a different field, drilling 1,265 feet in 25.22 on-bottom hours achieving ROP of 50.16 feet/hour. Both test runs set new benchmark performance in comparison to the respective field offset wells. This high performance seen in both test runs were enabled by increase in ROP & the significant reduction of downhole vibrations and stick and slip brought by combining the new technologies in bit and drilling automation software. The first-time application of the new technologies helped the operator to solve drilling challenges, increasing performance and reducing the cost per foot by 20%.
独特几何切削元件钻头和阶跃变化钻井自动化软件及减扭矩系统的首次应用为科威特北部油田树立了新的性能标杆
一种新的切削元件技术钻头和新的钻井自动化软件为科威特北部两个油田具有挑战性的12¼”段的钻井提供了解决方案。在12¼”段的钻井中,使用了定向BHA,钻井角度在25到30度之间。该地层的特点是灰岩和活性页岩互层,导致井下振动大、扭矩大、粘滑,影响定向工具的堆积能力和该段的整体性能。主要目标是通过开发一种综合解决方案来消除井下工具故障,提高钻进速度,从而提高钻井性能。工程团队将独特的几何形状融入到钻头切削元件设计中,开发出了脊状金刚石元件(RDE)钻头,该钻头采用了新的切削元件技术,其几何形状与标准PDC切削齿不同。脊状切削面有助于减少通过切削面产生的反扭矩。脊状切割面还有助于通过有效的岩石清除来提高钻速(ROP)。钻井自动化软件的目标是(通过分析地面数据)确定RPM/WOB的最佳钻井参数,以实现每个地层的最大ROP,同时检测和减轻钻井功能障碍,如冲击、振动和粘滑。该系统是在通知模式下运行的,因为它将在整个论文中更详细地解释。采用减扭矩系统技术,通过瞬间改变地面管柱旋转(RPM)来减小地面扭矩变化,减少粘滑现象。新的切削元件技术与钻井自动化软件相结合,为12-1/4”井段的钻井作业所面临的挑战提供了一个综合解决方案。在第一口测试井中,RDE钻头和钻井自动化软件与电动旋转导向系统(RSS)一起使用,在15.27小时的井底时间内钻进了1060英尺,有效ROP为69.4英尺/小时。第二口测试井位于另一个油田,在25.22小时的井底时间内钻进1265英尺,ROP达到50.16英尺/小时。与各自的油田邻井相比,两次测试都设定了新的基准性能。在两次测试中都能看到如此优异的性能,这得益于机械钻速的提高,以及结合钻头和钻井自动化软件的新技术所带来的井下振动和粘滑现象的显著减少。新技术的首次应用帮助作业者解决了钻井挑战,提高了钻井性能,每英尺成本降低了20%。
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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