[1]梁莹.自悬浮支撑剂研究进展及应用现状[J].油气井测试,2022,31(01):47.[doi:10.19680/j.cnki.1004-4388.2022.01.008]
 LIANG Ying.Research progress and application status of selfsuspension proppant[J].Well Testing,2022,31(01):47.[doi:10.19680/j.cnki.1004-4388.2022.01.008]
点击复制

自悬浮支撑剂研究进展及应用现状()
分享到:

《油气井测试》[ISSN:1006-6977/CN:61-1281/TN]

卷:
31
期数:
2022年01期
页码:
47
栏目:
出版日期:
2022-02-25

文章信息/Info

Title:
Research progress and application status of selfsuspension proppant
文章编号:
1004-4388(2022)01-0047-05
作者:
梁莹
中国石化西南石油工程有限公司井下作业分公司 四川德阳 618000
Author(s):
LIANG Ying
Downhole Operation Branch, SINOPEC Southwest Petroleum Engineering Co., Ltd., Deyang, Sichuan 618000, China
关键词:
自悬浮支撑剂压裂液清水压裂性能评价研究现状现场应用发展趋势
Keywords:
selfsuspension proppant fracturing fluid clean water fracturing performance evaluation research status field application development trend
分类号:
TE353
DOI:
10.19680/j.cnki.1004-4388.2022.01.008
文献标志码:
B
摘要:
阐述了膨胀型自悬浮支撑剂、黏弹型自悬浮支撑剂、气悬浮支撑剂的研究现状;从常规物理性能、导流能力、悬浮性能、包覆层溶液性能等方面探讨了自悬浮支撑剂性能评价现状;详细分析了自悬浮支撑剂的国内外应用情况。综合分析认为,自悬浮支撑剂作为一种新型支撑剂,将支撑剂与压裂液合二为一,不借助常规压裂液体系就能长时间悬浮,可实现清水压裂,在低渗、易受损储层及页岩气等非常规气藏具有显著的技术优势。国内自悬浮支撑剂的抗温能力还需进一步提高,同时应加强其配套工艺研究。
Abstract:
This paper describes the research status of expansive selfsuspension proppant, viscoelastic selfsuspension proppant and gassuspension proppant; In addition, this paper also discusses the evaluation status of the performance of selfsuspended proppant from the aspects of conventional physical properties, conductivity, suspension properties and coating solution properties, and analyzes the application of selfsuspended proppant at home and abroad in details. Comprehensive analysis shows that as a new type of proppant, selfsuspension proppant combines proppant and fracturing fluid, which can be suspended for a long time without the help of conventional fracturing fluid system and can realize clean water fracturing. It has significant technical advantages in low permeability, easily damaged reservoirs, and unconventional gas reservoirs such as shale gas reservoir. The temperature resistance of domestic selfsuspension proppant needs to be further improved, and its supporting process research should be strengthened.

相似文献/References:

[1]高 超,艾 昆,高 辉,等. 基于施工压力曲线的综合滤失系数测试方法及压裂参数优化[J].油气井测试,2018,27(01):8.[doi:10.19680/j.cnki.1004-4388.2018.01.002]
 GAO Chao,AI Kun,GAO Hui,et al.Test method of total leak-off coefficient and optimization of fracturing parameters based on operation pressure curves[J].Well Testing,2018,27(01):8.[doi:10.19680/j.cnki.1004-4388.2018.01.002]
[2]傅 玉,李永明,丁 咚.川西地区自悬浮支撑剂加砂压裂技术先导试验[J].油气井测试,2018,27(01):42.[doi:10.19680/j.cnki.1004-4388.2018.01.007]
 FU Yu,LI Yongming,DING Dong.Field test of selfsuspending proppant for sand fracturing technology in West Sichuan[J].Well Testing,2018,27(01):42.[doi:10.19680/j.cnki.1004-4388.2018.01.007]
[3]王文胜.不动管柱多层压裂窜槽原因分析[J].油气井测试,2020,29(05):39.[doi:10.19680/j.cnki.1004-4388.2020.05.007]
 WANG Wensheng.Cause analysis of channeling in multilayer fracturing with fixed string[J].Well Testing,2020,29(01):39.[doi:10.19680/j.cnki.1004-4388.2020.05.007]
[4]吕宜珈. 一种适用于页岩油气井工厂化体积压裂的新型液体破胶剂[J].油气井测试,2023,32(04):39.[doi:10.19680/j.cnki.1004-4388.2023.04.007]
 [J].Well Testing,2023,32(01):39.[doi:10.19680/j.cnki.1004-4388.2023.04.007]
[5]吴兆亮. 大庆古龙页岩油密切割体积压裂工艺参数优化探索[J].油气井测试,2023,32(06):34.[doi:10.19680/j.cnki.1004-4388.2023.06.006]
 [J].Well Testing,2023,32(01):34.[doi:10.19680/j.cnki.1004-4388.2023.06.006]

备注/Memo

备注/Memo:
2020-11-06收稿,2021-09-09修回,2021-12-09接受,2022-02-20网络版发表
中石化西南石油工程有限公司科技研发项目“难动用储量合作开发技术研究及先导试验”(xn202008)
梁莹,女,1988年出生,硕士,工程师,2014年毕业于西南石油大学化学工程专业,现在从事储层改造工作液及材料的研究工作。电话:0838-2607466,15282820940;Email:scslcly@163.com。通信地址:四川省德阳市金沙江西路699号,邮政编码:618000。
更新日期/Last Update: 2022-04-19