综合远场分流技术在多级酸压裂中的应用:科威特北部非常规油田的经验教训

A. Al-Enezi, Mohammed Al-Othman, Mishari Al-Shtail, Yousef Al-Sadeeqi, K. Bhatia, A. Alboueshi, Amr Abdelbaky
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引用次数: 1

摘要

非常规油田Bahrah是一个高潜力油田,在通过高度非均质致密碳酸盐岩层段、储层质量差、流动性差的情况下,油气流动保障面临着诸多挑战。因此,该油田的开发策略优先考虑水平井酸压裂完井技术,而不是直井。在压裂过程中,酸体系倾向于在地层中形成高导电性的通道。大部分流体将流入阻力最小的路径,而大部分地层未得到处理。因此,压裂处理方案明显减少,因此油藏增产效果在每个阶段都不是最优的。在储层特征多变的长水平段进行酸压裂时,实现完全覆盖井筒是一个挑战。采用综合远场导流(IFD)进行多级酸压裂,采用选择性裸眼完井,利用可膨胀封隔器和滑套实现机械环空分段。在IFD方法中,机械和化学导流对整体增产成功非常重要。该技术包括考虑到裸眼环空空间和天然裂缝的广泛存在,泵入多种自降解粒径的颗粒,然后使用基于HCL的原位交联系统来提高单个阶段的目标。采用了一种生物模式策略,其中大颗粒补充小颗粒,可以桥接大颗粒的孔喉,并且具有所需的刚性特性,一旦暴露于储层条件下,就会产生一定程度的柔韧性。IFD导流将裂缝转移到未压裂区域,形成复杂裂缝,增加储层接触体积,提高整体导流能力。本文研究了酸压裂中的IFD,并介绍了关键的导流策略。与其他领域使用的现有转分散剂不同,颗粒在低pH值和活性酸中不受影响。选择合适的压裂剂,并与原位交联酸相结合,有效封堵之前形成的裂缝,并产生足够高的压力,以启动另一条裂缝进行进一步分叉。各个阶段的IFD导流优化设计起着关键作用,有助于有效封堵裂缝,实现分段。导流剂的浓度、流体体系的体积和裸眼段长度的敏感性对该处理的成功与否起着至关重要的作用。IFD方法的应用经过调整,以适应该非常规油藏的独特挑战,包括井作业、地层技术困难、高风险经济以及未开发的高潜力。这种酸压裂处理的直接结果是,作业后的数据显示,沿段的所有压裂区都以持续的方式做出了很高的贡献。此外,该方法可以被认为是应用于其他领域非常规挑战的最佳实践。
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Application of Integrated Far-Field Diversion Technology in Multistage Acid-Fracturing: Lesson Learnings from Unconventional Field North Kuwait
The unconventional Bahrah field is a high potential field which poses several challenges in terms of hydrocarbon flow assurance through highly heterogeneous tight carbonate intervals with poor reservoir quality and curtailed mobility. Due to this, the field development strategies have prioritized well completion using horizontal acid fracturing technology over vertical wells. During fracturing, the acid system tends to form highly conductive channels in the formation. Most of the fluid will flow into the path of least resistance leaving large portions of the formation untreated. As a result, the fracturing treatment options dwindle significantly, thus reservoir stimulation results are not optimum in each stage. Achieving complete wellbore coverage is a challenge for any acid frac treatment performed in long lateral with variations in reservoir characteristics. The multistage acid fracturing using Integrated Far-field Diversion (IFD) is performed using selective openhole completion, enabling mechanical annular segmentation of the wellbore using swellable packers and sliding sleeves. The mechanical as well as chemical diversion in IFD methodology is highly important to the overall stimulation success. The technique includes pumping multiple self-degrading particle sizes, considering the openhole annular space and wide presence of natural fractures, followed by in-situ HCL based crosslinked system employed for improving individual stage targets. A biomodal strategy is employed wherein larger particles are supplemented with smaller that can bridge pore throats of the larger particles and have the desired property of rigidity and develop a level of suppleness once exposed to reservoir conditions. The IFD diversion shifts the fracture to unstimulated areas to create complex fractures that increase reservoir contact volume and improving overall conductivity. This paper examines IFD in acid fracturing and describes the crucial diversion strategy. Unlike available diverters used in other fields, the particulates are unaffected at low pH values and in live acids. Proper agent selection and combination with in-situ crosslink acid effectively plug the fracture generated previously and generate pressure high enough to initiate another fracture for further ramification. The optimization and designing of the IFD diversion in each stage plays a key role and has helped to effectively plug fractures and realize segmentation. Concentration of diversion agents, volume of fluid system and open-hole stage length sensitivity plays vital role for the success of this treatment. The application of IFD methodology is tuned as fit-for-purpose to address the unique challenges of well operations, formation technical difficulties, high-stakes economics, and untapped high potential from this unconventional reservoir. A direct result of this acid fracturing treatment is that the post-operation data showed high contribution of all fractured zones along the section in sustained manner. Furthermore, this methodology can be considered as best practice for application in unconventional challenges in other fields.
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