Numerical simulation on multi-well fracturing considering multiple thin layers in vertical direction

IF 7 1区 工程技术 Q1 ENGINEERING, GEOLOGICAL
Yunpeng Wang , Tiankui Guo , Ming Chen , Xuliang Jia , Dingwei Weng , Zhanqing Qu , Zunpeng Hu , Bo Zhang , Jiwei Wang
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Abstract

Multiwell fracturing is a key technology for developing shale gas and shale oil reservoirs. In this study, a multiple planar 3D (PL3D) fracture simulator that can capture multiple thin layers was developed to examine the propagation of multiple fractures during multicluster fracturing in multiple horizontal wells. The simulator considers multiple thin layers in the vertical direction. The results of the model are validated against the analytical solution of a single radial fracture and the implicit level set algorithm (ILSA). Using the simulator, a series of numerical simulations based on the field case are performed to investigate the fracture propagation mechanism of multiwell fracturing. The completion sequence, well placement pattern, well spacing, and cluster spacing are investigated to optimize the treatment parameters. The effective fracture area is used to quantitatively describe the stimulation effect. The adaptability of the completion sequence and well placement pattern is also analysed from the perspective of “frac hits”. The results show that the completion sequence has a critical influence on the stimulation effect and fracture geometry. From the perspective of avoiding “frac-hit” fractures, fracturing the low-stress layer can form an “artificial stress barrier”, which slightly protects the well from interference from other fractures. The staggered well pattern is better than the stacked well pattern. Compared with the stacked pattern, the staggered pattern can reduce the overlap area of fractures by 80 %, which greatly reduces the probability of “frac-hits”. With increasing well spacing from 200 m to 500 m, the fracture area increases by 25 %, and the degree of uneven stimulation between the two pay zones also increases by 6 %. Considering that a small well spacing is prone to “frac hits”, a large well spacing leads to an unstimulated area between two wells, and a 350 m well spacing is optimal. The effective fracture area decreases slightly with increasing perforation cluster spacing, but the fracture geometry becomes much more regular. The results can be helpful for the field design of multiwell fracturing.
考虑垂直方向多薄层的多井压裂数值模拟
多井压裂是开发页岩气和页岩油藏的一项关键技术。本研究开发了一种可捕捉多薄层的多平面三维(PL3D)压裂模拟器,以研究多水平井多簇压裂过程中多条裂缝的传播情况。该模拟器考虑了垂直方向上的多个薄层。该模型的结果与单一径向裂缝的分析解法和隐式水平集算法(ILSA)进行了验证。利用该模拟器,进行了一系列基于现场案例的数值模拟,以研究多井压裂的裂缝传播机理。研究了完井顺序、井位模式、井间距和簇间距,以优化处理参数。有效压裂面积用于定量描述刺激效果。还从 "压裂命中率 "的角度分析了完井顺序和布井模式的适应性。结果表明,完井顺序对刺激效果和裂缝几何形状有着至关重要的影响。从避免 "压裂命中 "裂缝的角度来看,压裂低应力层可以形成 "人工应力屏障",稍微保护油井不受其他裂缝的干扰。交错井型优于叠层井型。与叠层井型相比,交错井型可减少 80% 的裂缝重叠面积,大大降低了 "压裂命中 "的概率。随着井距从 200 米增加到 500 米,压裂面积增加了 25%,两个有效层之间的不均匀激励程度也增加了 6%。考虑到小井距容易出现 "压裂命中",大井距导致两口井之间出现非刺激区,因此最佳井距为 350 米。随着射孔群间距的增加,有效压裂面积略有减少,但压裂几何形状变得更加规则。这些结果有助于多井压裂的现场设计。
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来源期刊
CiteScore
14.00
自引率
5.60%
发文量
196
审稿时长
18 weeks
期刊介绍: The International Journal of Rock Mechanics and Mining Sciences focuses on original research, new developments, site measurements, and case studies within the fields of rock mechanics and rock engineering. Serving as an international platform, it showcases high-quality papers addressing rock mechanics and the application of its principles and techniques in mining and civil engineering projects situated on or within rock masses. These projects encompass a wide range, including slopes, open-pit mines, quarries, shafts, tunnels, caverns, underground mines, metro systems, dams, hydro-electric stations, geothermal energy, petroleum engineering, and radioactive waste disposal. The journal welcomes submissions on various topics, with particular interest in theoretical advancements, analytical and numerical methods, rock testing, site investigation, and case studies.
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