压裂液侵入对页岩储层导流能力伤害
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国家自然科学基金“基于Hybrid数据的复杂系统辨识与优化设计及在低渗透油井中的应用”项目(编号:61572084)、国家十三五重大专项“CO2驱油藏全生命周期举升工艺及配套技术研究”项目(编号:2016ZX05056004-002)和国家十三五重大专项“准噶尔盆地致密油开发示范工程”项目(编号:2017ZX05070)。第一作者:袁旭(1995-),男,长江大学(武汉)油气田开发工程专业硕士研究生,研究方向为石油与天然气工程。电话:13997627683。E-mail:2377392696@qq.com。邮编:430100。通讯作者:许冬进(1981-),男,长江大学石油工程学院副教授,研究方向为非常规油气开发、储层改造等。电话:13593800670。E-mail:xdj1001@yangtzeu.edu.com。


Study on the damage of fracturing fluid intrusion to the conductivity of shale reservoir
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    摘要:

    大规模水力分段压裂是页岩气等非常规资源高效开发的关键技术。页岩气井返排率一般较低,大量的压裂液长期滞留地层对储层岩石、支撑剂强度等造成一定的伤害,影响页岩储层压裂改造长期效果。针对该问题,通过室内试验模拟研究现场压裂前后气测导流的变化规律,对压裂液伤害程度进行表征。结果表明:压裂液侵入降低了支撑剂、页岩岩石强度,导致支撑剂破碎率、岩石嵌入程度加剧,导流能力伤害达到60%以上;使用大粒径支撑剂、较高铺砂浓度,优选破胶性能好、低残渣、防膨性强的压裂液,能有效提高导流能力,降低压裂液伤害程度。研究结果对页岩地层压裂设计,降低压裂液伤害提高产量提供参考。

    Abstract:

    large-scale hydraulic fracturing is a key technology for the efficient development of unconventional resources such as shale gas. Generally, the flowback rate of shale gas Wells is relatively low. A large amount of fracturing fluid stays in the formation for a long time, which causes certain damage to reservoir rocks and proppant compressive strength, and affects the long-term effect of shale reservoir fracturing transformation. To solve this problem, the variation rule of gas conductivity before and after field fracturing was studied by indoor test simulation, and the damage degree of fracturing fluid was characterized. The results show that the intrusion of fracturing fluid reduces the strength of proppant and shale rock, leading to the fracture rate of proppant and the degree of rock embedding, and the damage of flow conductivity reaches more than 60%.The use of large particle size proppant, high sand concentration, preferred fracture fluid with good rubber breaking performance, low residue, strong anti-swelling, can effectively improve the conductivity and reduce the damage degree of fracturing fluid. The research results provide reference for fracturing design of shale formation, reducing fracturing fluid damage and increasing production.

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袁旭,许冬进,陈世海,等. 压裂液侵入对页岩储层导流能力伤害[J]. 科学技术与工程, 2020, 20(9): 3591-3597.
Yuan Xu, Xu Dongjin, Chen Shihai, et al. Study on the damage of fracturing fluid intrusion to the conductivity of shale reservoir[J]. Science Technology and Engineering,2020,20(9):3591-3597.

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历史
  • 收稿日期:2019-06-27
  • 最后修改日期:2020-01-03
  • 录用日期:2019-09-26
  • 在线发布日期: 2020-05-14
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