[1]董林芳,陈新阳.自悬浮支撑剂的性能评价与现场应用[J].石油钻探技术,2018,46(06):90-94.[doi:10.11911/syztjs.2018144]
 DONG Linfang,CHEN Xinyang.Performance Evaluation and Field Application of a Self-Suspending Proppant[J].Petroleum Drilling Techniques,2018,46(06):90-94.[doi:10.11911/syztjs.2018144]
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《石油钻探技术》[ISSN:1001-0890/CN:11-1763/TE]

卷:
46卷
期数:
2018年06期
页码:
90-94
栏目:
油气开发
出版日期:
2018-11-25

文章信息/Info

Title:
Performance Evaluation and Field Application of a Self-Suspending Proppant
作者:
董林芳 陈新阳
天津中海油服化学有限公司, 天津 300301
Author(s):
DONG Linfang CHEN Xinyang
COSL Chemicals(Tianjin) Ltd., Tianjin, 300301, China
关键词:
压裂液自悬浮支撑剂性能试验现场应用
Keywords:
fracturing fluidself-suspending proppantperformance testfield application
分类号:
TE357.1+2
DOI:
10.11911/syztjs.2018144
摘要:
为解决常规压裂液存在的压裂施工配液流程复杂、冻胶残渣对地层伤害大的问题,以陶粒砂、速溶液体改造剂和高分子聚合物为原料制备了自悬浮支撑剂,对其综合性能进行了室内试验评价,并研究形成了自悬浮支撑剂施工工艺。通过室内评价试验可知,自悬浮支撑剂悬浮形成时间短,具有良好的悬浮稳定性能、耐温耐剪切性能、破胶性能和低伤害特性。自悬浮支撑剂在5口井的清水压裂中进行了现场应用,简化了压裂施工流程,施工成功率100%。其中,X-1井压裂施工顺利,压裂后的日产油量是采用常规压裂液的邻井X-2井的2倍多,增产效果显著。室内试验与现场应用结果表明,自悬浮支撑剂能够达到简化施工流程、降低对储层的伤害和提高油气产量的目的,具有良好的推广应用前景。
Abstract:
When conventional fracturing fluid is used for fracturing,the fluid preparation process is complex,and the formation damage caused by gel residue is serious.In order to solve these problems,a self-suspending proppant has been developed with ceramic sand,instant solution modifier and polymer,and evaluated its comprehensive performance,by which the operation technology of self-suspending proppant was developed.The evaluation results showed that the proppant had such characteristics as short suspending forming time,good suspension stability,temperature and shear resistance,good gel breaking performance and low damage.The field application of the proppant was conducted in well X-1 of an oilfield,the fracturing occurred smoothly,the preparing time of fracturing fluid was short.Significantly,the post-fracturing daily oil production was 2 times higher than that of the offset well X-2 which was stimulated with the conventional fracturing,with remarkable effect in production increase.The results of lab and field tests showed that the self-suspending proppant can achieve the purposes of simplifying fluid preparing process,reducing reservoir damage and raising oil and gas production,with good prospect of popularization and application.

参考文献/References:

[1] KINCAID K P,SNIDER P M,HERRING M,et al.Self-suspending proppant[R].SPE 163818,2013.
[2] AGGARWAL A,AGARWAL S,SHARMA S,et al.Viscoelastic surfactants based stimulation fluids with added nanocrystals and self-suspending proppants for HPHT applications[R]. SPE 171999,2014.
[3] LIANG F,SAYED M,AL-MUNTASHERI G,et al.Overview of existing proppant technologies and challenges[R].SPE 172763,2015.
[4] GOLDSTEIN B,JOSYULA K,VanZEELAND A,et al.Improve well performance by reducing formation damage[R].SPE 178518,2015.
[5] GOLDSTEIN B,van ZEELAND A.Self-suspending proppant transport technology increases stimulated reservoir volume and reduces proppant pack and formation damage[R].SPE 174867,2015.
[6] 黄博,熊炜,马秀敏,等.新型自悬浮压裂支撑剂的应用[J].油气藏评价与开发,2015,5(1):67-70. HUANG Bo,XIONG Wei,MA Xiumin,et al.Application of novel self suspending fracturing proppant[J].Reservoir Evaluation and Development,2015,5(1):67-70.
[7] 张龙胜,秦升益,雷林,等.新型自悬浮支撑剂性能评价与现场应用[J].石油钻探技术,2016,44(3):105-108. ZHANG Longsheng,QIN Shengyi,LEI Lin,et al.Property evaluation and field applications of a new self-suspending proppant[J].Petroleum Drilling Techniques,2016,44(3):105-108.
[8] 张鑫,王展旭,汪庐山,等.膨胀型自悬浮支撑剂的制备及性能评价[J].油田化学,2017,34(3):449-455. ZHANG Xin,WANG Zhanxu,WANG Lushan,et al.Preparation and performance evaluation of intumescent self-suspending proppant[J].Oilfield Chemistry,2017,34(3):449-455.
[9] 陈新阳.水溶性高分子聚合物增稠剂速溶液体改造剂及其加工方法,200310113416.6[P].2003-11-10. CHEN Xinyang.Water-soluble polymer thickener modification agent and preparation method,200310113416.6[P].2003-11-10.
[10] 杨帆,王琳,林永学,等.减阻水压裂液用黏土稳定剂的合成与应用[J].钻井液与完井液,2016,33(4):109-113. YANG Fan,WANG Lin,LIN Yongxue,et al.Synthesis and evaluation of clay stabilizer used in slick water fracturing fluid[J].Drilling Fluid & Completion Fluid,2016,33(4):109-113.
[11] 杨帆,王琳,杨小华,等.压裂液防膨剂的研制与应用[J].石油钻采工艺,2017,39(3):344-348. YANG Fan,WANG Lin,YANG Xiaohua,et al.Development and application of antiswelling agent used in fracturing fluid[J].Oil Drilling & Production Technology,2017,39(3):344-348.
[12] 康毅力,罗平亚.储层保护系统工程:实践与认识[J].钻井液与完井液,2007,24(1):1-7. KANG Yili,LUO Pingya.System engineering of reservoir preservation:practice and theory[J].Drilling Fluid & Completion Fluid,2007,24(1):1-7.

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备注/Memo

备注/Memo:
收稿日期:2018-04-27;改回日期:2018-10-15。
基金项目:国家科技重大专项"大陆边缘盆地类比与油气成藏规律研究"(编号:2011ZX05030-001)资助。
作者简介:董林芳(1987-),女,山东德州人,2009年毕业于聊城大学化学专业,2014年获中国科学院理化技术研究所物理化学专业博士学位,应用工程师,主要从事钻井完井液和酸化压裂方面的研究。
E-mail:linfangdong@126.com。
更新日期/Last Update: 1900-01-01