Standalone Screen Design and Evaluation for Cased and Perforated Application in Unconsolidated Formations: The Role of Perforation Strategy and Sand Control Design on Well Productivity

Morteza Roostaei, M. Mohammadtabar, S. A. Hosseini, A. Velayati, M. Soroush, Mahdi Mahmoudi, Nolan Porttin, Farshad Mohammadtabar, H. Izadi, Ahmad Alkouh, Vahidoddin Fattahpour
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Abstract

Productivity of cased and perforated wellbores completed with standalone screen depends on the interactions of parameters such as perforation diameter, length, phasing and density, the gap between the casing and the standalone screen, and standalone screen aperture/pore size. Moreover, the permeability of the sand in the gap plays a major role in the overall productivity. This study aims at providing a numerical estimation of pressure drop for such completions. This study uses Computational Fluid Dynamics (CFD) in order to simulate the flow around a wellbore equipped with cased and perforated completion with standalone screen. Slotted liner was used as the standalone screen in this study. Details of such a complex completion were imported into the Finite Volume (FV) based numerical simulation via Computer-Aided Design (CAD). In addition to the geometrical design of the completion, different scenarios for the perforation stability, which affect the permeability of the perforation tunnel and result in potential fill-up of the annular gap between the slotted liner and perforations, were investigated. A large number of simulations (over 200 models) were completed to cover the different scenarios for perforation design and strategy along with different Open to Flow Area (OFA) values for the standalone slotted liner. Based on the results, completion efficiency is strongly changed by perforation and gap flow properties. The OFA for the standalone slotted liner completion has minor influence on the overall pressure drop if the gap between the casing and the standalone screen and the perforation is clean, unless the perforations are collapsed and the annular gap between the casing and slotted liner is filled up with sand. This is mainly because perforation parameters, such as penetration and diameter dominate the effect of all the other parameters, including slotted liner configuration. The results emphasize the effect of the completion geometry, perforation strategy, and opening size on the skin and productivity. Another main observation was the need to better understand the stability of the perforations and sanding potential from perforations, which dictate the permeability of the perforation and annular space. The results of this study highlight the comparative importance of different standalone screen designs and perforation parameters on well productivity. This study is the basis for optimizing the sand control and perforation strategy as an alternative to other completion types such as gravel packing in cased and perforated completions in vertical and slant wells.
非胶结地层套管井和射孔井的独立筛管设计与评价:射孔策略和防砂设计对油井产能的影响
采用独立筛管完井的套管井和射孔井的产能取决于射孔直径、长度、相位和密度、套管与独立筛管之间的间隙以及独立筛管孔径/孔径等参数的相互作用。此外,间隙中砂土的渗透率对整体产能起着重要作用。本研究旨在为此类完井提供压降的数值估计。本研究使用计算流体动力学(CFD)来模拟带有独立筛管的套管井和射孔完井井筒周围的流动。本研究采用开槽尾管作为独立筛管。这种复杂完井的细节通过计算机辅助设计(CAD)导入到基于有限体积(FV)的数值模拟中。除了完井的几何设计外,还研究了不同的射孔稳定性情况,这些情况会影响射孔通道的渗透率,并导致开槽尾管与射孔之间的环空间隙可能被填满。完成了大量的模拟(超过200个模型),以涵盖射孔设计和策略的不同场景,以及独立开槽尾管的不同通流面积(OFA)值。结果表明,完井效率受到射孔和间隙流动特性的强烈影响。如果套管与独立筛管之间的间隙和射孔之间是清洁的,那么独立割缝尾管完井的OFA对总压降的影响很小,除非射孔发生塌陷,套管与割缝尾管之间的环空间隙被砂填满。这主要是因为射孔参数(如贯深和直径)主导了所有其他参数(包括开槽尾管配置)的影响。研究结果强调了完井几何形状、射孔策略和开口尺寸对表皮和产能的影响。另一个主要观察是需要更好地了解射孔的稳定性和射孔的出砂潜力,这决定了射孔和环空空间的渗透率。这项研究的结果强调了不同独立筛管设计和射孔参数对油井产能的相对重要性。该研究是优化防砂和射孔策略的基础,可以替代其他完井类型,如套管井中的砾石充填和垂直井和斜井的射孔完井。
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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