摘要
针对涪陵地区页岩储层在水力压裂前期井口注入压力过高的问题,开展了基于支撑剂段塞技术的降阻实验研究。采用前期自研的射流装置和靶件,建立了一套利用支撑剂段塞打磨孔眼的近井裂缝降阻的物理模拟实验方法,并进行了正交实验。针对现场需要,建立了首尾压降与平均压降速率两个参数对实验结果进行表征,并据此进行了分析。结果表明,各因素对降阻效果的影响由大到小排序为:砂比、粒径、段塞组数(打磨时间)、支撑剂类型;石英砂降阻效果优于陶粒,降阻效果随着支撑剂粒径变粗、砂比的增加而增加,随着打磨时间的延长先减小后增大。基于正交实验结果,筛选出了一组支撑剂类型为石英砂,粒径为40/70目,砂比为9%,打磨时间为9 min的最佳作业参数,此时获得压降速率0.439 MPa/min,首尾压降1.04 MPa的最佳降低摩阻效果。该实验研究为页岩储层水力压裂的施工设计提供了一定的参考。
In order to solve the problem that the injection pressure of shale reservoir in Fuling area is too high in the early stage of hydraulic fracturing,researches on the resistance reduction based on proppant slug technology was carried out.By using the previous self-developed jet device and target,a set of physical simulation method for reducing fracture resistance in near well by grinding perforation with proppant slug was established and the orthogonal experiment was carried out.For the on-site needs,foretail pressure drop and average pressure drop rate are established to characterize the experimental results,and then analyzed accordingly.The results show that the influence of various factors on the resistance reduction effect from large to small is in the following orders:sand ratio,particle size,number of slugs(grinding time)and proppant type.The effect of reducing resistance of quartz sand is better than that of ceramsite.Drag reduction increases with the thickening of proppant particle size and the increase of sand ratio,and decreases at first and then increases with the prolongation of grinding time.Based on the results of orthogonal experiment,the optimal operating parameters of quartz sand with particle size of 40/70 mesh,sand ratio of 9%and grinding time of 9 min are selected.On this condition,the optimal friction reduction effect of pressure drop rate of 0.439 MPa/min and head-tail pressure drop of 1.04 MPa are obtained.The experimental study provides a certain reference for the construction design of hydraulic fracturing of shale reservoir.
作者
杨兆中
高晨轩
李小刚
刘觐瑄
廖梓佳
YANG Zhaozhong;GAO Chenxuan;LI Xiaogang;LIU Jinxuan;LIAO Zijia(State key Laboratory of Oil and Gas Reservoir Geology and Development Engineering,Southwest University of Petroleum,Chengdu,Sichuan 610500,China)
出处
《油气藏评价与开发》
CSCD
2020年第1期77-83,共7页
Petroleum Reservoir Evaluation and Development
基金
四川省应用基础研究项目“深层页岩填砂裂缝导流能力预测模型研究”(18YYJC1108)
“十三五”国家科技重大专项“彭水地区常压页岩气勘探开发示范工程”(2016ZX05061)
关键词
页岩
孔眼
降阻
弯曲裂缝
支撑剂段塞
水力压裂
shale
perforation
friction reduction
tortuous fracture
proppant slug
hydraulic fracturing
