A Systematic Approach to the Design and Development of a New ICD to Minimize Erosion and Erosion-Corrosion

IF 1.3 4区 工程技术 Q3 ENGINEERING, PETROLEUM
A. Dikshit, G. Woiceshyn, L. Hagel
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引用次数: 2

Abstract

To prevent or minimize problems associated with water coning in horizontal oil producers, inflow control devices (ICDs) are installed along the wellbore to better equalize the toe-to-heel flux. Nozzle-based ICDs are popular because they are easy to model accurately, virtually viscosity independent, and easy to install at the wellsite with many settings. Nozzles can be installed either in the wall of the base-pipe (radial orientation) or in the annulus between the base-pipe and housing (axial orientation). The advantages of the former are smaller maximum-running outer diameter (OD) and no need for a leak-tight, pressure-rated housing. One disadvantage is the high exit velocity that raises concern of erosion or erosion-corrosion of the base-pipe. To overcome this disadvantage, a new nozzle has been developed with a novel geometry that reduces the exit velocity approximately tenfold compared with a conventional nozzle for the same pressure drop and flow rate. Computational fluid dynamics (CFD) was used to first fine tune the design to meet strict erosion-corrosion prevention requirements on the wall shear-stress downstream of the nozzle for both production and (acid) injection directions, and then to develop flow-performance curves for four different nozzle “sizes” that vary in their choking ability, thereby allowing many different settings per joint at the wellsite. Full-scale prototype manufacturing and flow-loop testing were then performed to validate the CFD flow-performance predictions and to demonstrate mechanical integrity and erosion resistance for high-rate production and injection. The results, as presented herein, demonstrate a robust and commercially viable ICD design that has predictable flow performance using CFD, minimizes erosion and erosion-corrosion in either direction, minimizes running OD, simplifies the housing design, and allows easy installation at the wellsite with 34 settings per joint. Also discussed are two new advantages over other ICDs that were not anticipated in the original development.
设计和开发一种新型ICD的系统方法,以减少侵蚀和侵蚀-腐蚀
为了防止或最大限度地减少水平井生产中出现的水锥问题,在井筒沿线安装了流入控制装置(icd),以更好地平衡脚趾到脚跟的流量。基于喷嘴的icd很受欢迎,因为它们易于精确建模,几乎与粘度无关,并且易于在许多设置下安装在井场。喷嘴既可以安装在基础管壁上(径向方向),也可以安装在基础管和外壳之间的环空(轴向方向)。前者的优点是最大运行外径(OD)更小,不需要密封的耐压外壳。缺点之一是出口速度高,会引起对基础管的侵蚀或侵蚀腐蚀的担忧。为了克服这一缺点,一种新型喷嘴已经开发出来,具有新颖的几何形状,在相同的压降和流量下,与传统喷嘴相比,出口速度降低了大约十倍。首先使用计算流体动力学(CFD)对设计进行微调,以满足生产和注酸方向上喷嘴下游壁面剪切应力的严格防冲蚀要求,然后绘制出四种不同喷嘴“尺寸”的流动性能曲线,这些喷嘴的堵塞能力各不相同,从而可以在井场对每个接头进行多种不同的设置。然后进行了全尺寸原型制造和流动回路测试,以验证CFD流动性能预测,并证明了高速生产和注入的机械完整性和抗冲蚀性。结果表明,ICD设计稳健且具有商业可行性,利用CFD可预测流动性能,最大限度地减少了两个方向的侵蚀和侵蚀腐蚀,最大限度地减少了下入外径,简化了外壳设计,并且可以在井场轻松安装,每个接头只需34次坐封。还讨论了在最初的开发中没有预料到的与其他icd相比的两个新优势。
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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来源期刊
SPE Drilling & Completion
SPE Drilling & Completion 工程技术-工程:石油
CiteScore
4.20
自引率
7.10%
发文量
29
审稿时长
6-12 weeks
期刊介绍: Covers horizontal and directional drilling, drilling fluids, bit technology, sand control, perforating, cementing, well control, completions and drilling operations.
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