The law of fracture propagation and intersection in zipper fracturing of deep shale gas wells

IF 7 Q1 ENERGY & FUELS
Qiang WANG , Yufeng WANG , Yongquan HU , Jinzhou ZHAO , Yi SONG , Cheng SHEN
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Abstract

In response to the unclear understanding of fracture propagation and intersection interference in zipper fracturing under the factory development model of deep shale gas wells, a coupled hydro-mechanical model for zipper fracturing considering the influence of natural fracture zones was established based on the finite element – discrete element method. The reliability of the model was verified using experimental data and field monitoring pressure increase data. Taking the deep shale gas reservoir in southern Sichuan as an example, the propagation and interference laws of fracturing fractures under the influence of natural fracture zones with different characteristics were studied. The results show that the large approaching angle fracture zone has a blocking effect on the forward propagation of fracturing fractures and the intersection of inter well fractures. During pump shutdown, hydraulic fractures exhibit continued expansion behavior under net pressure driving. Under high stress difference, as the approaching angle of the fracture zone increases, the response well pressure increase and the total length of the fractured fracture show a trend of first decreasing and then increasing, and first increasing and then decreasing, respectively. Compared to small approach angle fracture zones, natural fracture zones with large approach angles require longer time and have greater difficulty to intersect. The width of fractures and the length of natural fractures are negatively and positively correlated with the response well pressure increase, respectively, and positively and negatively correlated with the time required for intersection, the total length of hydraulic fractures, and fracturing efficiency, respectively. As the displacement distance of the well increases, the probability of fracture intersection decreases, but the regularity between displacement distance and the response well pressure increase and the total length of fractures is not obvious.
深层页岩气井拉链压裂中的裂缝扩展与交汇规律
针对对深层页岩气井工厂化开发模式下拉链压裂的裂缝传播和交汇干扰认识不清的问题,基于有限元-离散元方法,建立了考虑天然裂缝带影响的拉链压裂水力机械耦合模型。利用实验数据和现场监测增压数据验证了模型的可靠性。以川南深层页岩气藏为例,研究了不同特征天然断裂带影响下压裂裂缝的传播和干涉规律。结果表明,大接近角断裂带对压裂裂缝的前向传播和井间裂缝的交汇具有阻滞作用。在停泵期间,水力压裂在净压力驱动下表现出持续扩张行为。在高应力差条件下,随着压裂带接近角的增大,响应井压增量和压裂裂缝总长度分别呈现先减小后增大、先增大后减小的趋势。与小接近角断裂带相比,大接近角天然断裂带需要的时间更长,相交难度更大。裂缝宽度和天然裂缝长度分别与响应井压增加量呈负相关和正相关,分别与相交所需时间、水力压裂总长度和压裂效率呈正相关和负相关。随着油井位移距离的增大,压裂交汇概率减小,但位移距离与响应井压增大和压裂总长度之间的规律性不明显。
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来源期刊
CiteScore
11.50
自引率
0.00%
发文量
473
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