Transportation and sealing pattern of the temporary plugging ball at the spiral perforation in the horizontal well section

IF 6 1区 工程技术 Q2 ENERGY & FUELS Petroleum Science Pub Date : 2024-10-01 DOI:10.1016/j.petsci.2024.06.016
Qing-Hai Hu , Wan Cheng , Zun-Cha Wang , Yu-Zhao Shi , Guang-Liang Jia
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Abstract

Multistage fracturing of horizontal wells is a critical technology for unconventional oil and gas reservoir stimulation. Ball-throwing temporary plugging fracturing is a new method for realizing uniform fracturing along horizontal wells and plays an important role in increasing oil and gas production. However, the transportation and sealing law of temporary plugging balls (TPBs) in the perforation section of horizontal wells is still unclear. Using COMSOL computational fluid dynamics and a particle tracking module, we simulate the transportation process of TPBs in a horizontal wellbore and analyse the effects of the ball density, ball diameter, ball number, fracturing fluid injection rate, and viscosity on the plugging efficiency of TPB transportation. This study reveals that when the density of TPBs is close to that of the fracturing fluid and a moderate diameter of the TPB is used, the plugging efficiency can be substantially enhanced. The plugging efficiency is greater when the TPB number is close to twice the number of perforations and is lower when the number of TPBs is three times the number of perforations. Adjusting the fracturing fluid injection rate from low to high can control the position of the TPBs, improving plugging efficiency. As the viscosity of the fracturing fluid increases, the plugging efficiency of the perforations decreases near the borehole heel and increases near the borehole toe. In contrast, the plugging efficiency of the central perforation is almost unaffected by the fracturing fluid viscosity. This study can serve as a valuable reference for establishing the parameters for temporary plugging and fracturing.
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水平井段螺旋射孔处临时封堵球的运输和密封模式
水平井多级压裂是非常规油气藏开采的一项关键技术。抛球暂堵压裂是实现水平井均匀压裂的一种新方法,在提高油气产量方面发挥着重要作用。然而,临时封堵球(TPB)在水平井射孔段的运移和封堵规律尚不清楚。我们利用 COMSOL 计算流体动力学和粒子跟踪模块,模拟了水平井井筒中 TPB 的运输过程,分析了球密度、球直径、球数、压裂液注入速度和粘度对 TPB 运输封堵效率的影响。研究结果表明,当热塑性硫化弹性体的密度与压裂液的密度接近,并且使用中等直径的热塑性硫化弹性体时,堵塞效率会大幅提高。当热塑性硫化弹性体数量接近射孔数量的两倍时,堵塞效率较高,而当热塑性硫化弹性体数量为射孔数量的三倍时,堵塞效率较低。将压裂液注入率从低到高进行调整,可以控制 TPB 的位置,提高堵塞效率。随着压裂液粘度的增加,井眼跟部附近的射孔堵塞效率会降低,而井眼趾部附近的射孔堵塞效率会提高。相比之下,中心射孔的堵塞效率几乎不受压裂液粘度的影响。这项研究对确定临时封堵和压裂参数具有重要参考价值。
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来源期刊
Petroleum Science
Petroleum Science 地学-地球化学与地球物理
CiteScore
7.70
自引率
16.10%
发文量
311
审稿时长
63 days
期刊介绍: Petroleum Science is the only English journal in China on petroleum science and technology that is intended for professionals engaged in petroleum science research and technical applications all over the world, as well as the managerial personnel of oil companies. It covers petroleum geology, petroleum geophysics, petroleum engineering, petrochemistry & chemical engineering, petroleum mechanics, and economic management. It aims to introduce the latest results in oil industry research in China, promote cooperation in petroleum science research between China and the rest of the world, and build a bridge for scientific communication between China and the world.
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