页岩抑制剂的抑制机理及研究进展

张卫东; 韩磊; 王富华; 蓝强; 朱海涛; 杨海荣; 赵清源

doi:10.3969/j.issn.1001-5620.2021.01.001

页岩抑制剂的抑制机理及研究进展

doi: 10.3969/j.issn.1001-5620.2021.01.001

1. 中国石油大学(华东)石油工程学院, 山东青岛 266580;
2. 中石化胜利石油工程有限公司钻井工艺研究院, 山东东营 257000

详细信息

作者简介:
张卫东,教授,博士,毕业于中国石油大学(华东)油气井工程专业,现从事非常规油气开发的研究。电话 13854661256;E-mail:wdzhang@upc.edu.cn

中图分类号: TE254.4
计量
- 文章访问数: 583
- HTML全文浏览量: 140
- PDF下载量: 105
- 被引次数: 0
出版历程
- 收稿日期: 2020-10-12
- 网络出版日期: 2021-08-16

Research Progress of Inhibition Mechanism of Shale Inhibitors

1. School of Petroleum Engineering, China University of Petroleum, Qingdao, Shandong 266580;
2. Drilling Technology Research Institute, Sinopec Shengli Oilfield Service Corporation, Dongying, Shandong 257000

摘要

摘要: 从胺类页岩抑制剂、离子液体页岩抑制剂、纳米复合材料以及其他新型页岩抑制剂（生物大分子类、多糖类、聚合醇类等）概述了页岩抑制剂的研究进展，分析了各种抑制剂的作用机理，总结了目前抑制效果评价方法。在此基础上展望了页岩抑制剂未来的发展趋势。
- 页岩抑制剂 /
- 离子液体 /
- 聚胺 /
- 纳米材料 /
- 抑制机理
Abstract: From the perspective of amine shale inhibitors, ionic liquid shale inhibitors, nanocomposites, and other new shale inhibitors (biomacromolecules, polysaccharides, polyalcohols, et al) The mechanism of action of various inhibitors was analyzed, and the current evaluation methods of inhibitory effects were summarized. And on this basis, prospect the future development trend of shale inhibitors.
- Shale inhibitor /
- Ionic liquids /
- Polyamine /
- Nano-materials /
- Inhibitory mechanisms

HTML全文

参考文献(37)

[1]	PETER J BOUL,B R REDDY, MATT HILLFIGER,et al. Functionalized nanosilicas as shale inhibitors in waterbased drilling fluids[C]. SPE/OTC 26902, 2016.
[2]	SANDRA L BERRY, JOEL L BOLES, HAROLD D BRANNON, et al. Performance evaluation of ionic liquids as a clay stabilizer and shale inhibitor[J]. SPE 112540, 2008.
[3]	TAN C P, WU BAILIN, FERSHEED K MODY. Development and laboratory verification of high membrane efficiency water-based drilling fluids with oil-based drilling fluid-like performance in shale stabilization[C]. SPE/ISRM 78159, 2002.
[4]	毛惠,邱正松,黄维安,等. 温度和压力对黏土矿物水化膨胀特性的影响[J]. 石油钻探技术,2013,41(6):56-61. MAO Hui, QIU Zhengsong, HUANG Weian, et al. The effects of temperature and pressure on the hydration swelling characteristics of clay mineral[J]. Petroleum Drilling Techniques, 2013, 41(6):56-61.
[5]	ARVIND D PETER. Design and development of quaternary amine compounds:shale inhibition with improved environmental profile[J]. SPE 121737, 2009.
[6]	ZHOU J, NASR-EI-DIN H A. A new application of potassium nitrate as an environmentally friendly clay stabilizer in water-based drilling fluids[C]. SPE 184578, 2017.
[7]	李伟,李红梅,王平全,等. 两性离子页岩抑制剂NMHC的合成与评价[J]. 应用化工,2015,44(5):907-909. LI Wei, LI Hongmei, WANG Pingquan, et al. Synthesis and evaluation of amphoteric polymer shaleinhibitor NMHC[J]. Applied Chemical Industry,2015,44(5):907-909.
[8]	GREENWELL H C, HARVEY M J, BOULET P, et al. Interlayer structure and bonding in non-swelling primary amine intercalated clays[J]. Macromolecules, 2005,38(14):6189-6200.
[9]	ZARE M R, SHADIZADEH S R, HABIBNIA B. Mechanical stability analysis of directional well:a case study in Ahwaz[J]. SPE 136989,2010.
[10]	张艳娜,张旭龙. 页岩抑制剂PAI的室内评价[J]. 钻采工艺,2017,40(3):94-96 ,116. ZHANG Yanna, ZHANG Xulong. Indoor evaluation of shale inhibitor PAI[J]. Drilling & Production Technology, 2017, 40(3):94-96,116.
[11]	张克勤,何纶,安淑芳,等. 国外高性能水基钻井液介绍[J]. 钻井液与完井液,2007,24(3):68-73. ZHANG Keqin,HE lun,AN Shufang,et al. Introduction of high-performance water-based drilling fluid abroad[J]. Drilling Fluid & Completion Fluid,2007,24(3):68-73.
[12]	张馨,邱正松,钟汉毅,等. 新型超高温页岩抑制剂特性试验研究[J]. 钻井液与完井液,2017,34(1):9-15. ZHANG Xin, QIU Zhengsong, ZHONG Hanyi, et al. Experimental study on a new ultrahigh temperature shale inhibitor[J]. Drilling Fluid & Completion Fluid, 2017, 34(1):9-15.
[13]	郝彬彬, 胡进军, 夏小春, 等. 高性能页岩抑制剂ATROL的研制及现场应用[J]. 大庆石油地质与开发, 2016, 35(2):154-158. HAO Binbin,HU Jinjun,XIA Xiaochun,et al. Laboratory study and field application of highperformance shale inhibitor ATROL[J].Petroleum Geology and Oilfield Development in Daping,2016,35(2):154-158.
[14]	宣扬, 蒋官澄, 宋然然, 等. 超支化聚乙烯亚胺作为钻井液页岩抑制剂研究[J]. 中国石油大学学报(自然科学版), 2017, 41(6):178-186. XUAN Yang, JIANG Guancheng, SONG Ranran, et al. Study on hyper-branched poly(ethyleneimine) as shale inhibitor in water-based drilling fluid[J].Journal of China University of Petroleum,2017,41(6):178-186.
[15]	TOMALIA D A H, BAKER H,DEWALD, et al.A new class of polymers:starburst-dendritic macromolecules[J]. Polymer Journal,1985,34(1):117-132.
[16]	AMANULLAH M D. Dendrimers and dendritic polymersapplication for superior and intelligent fluid development for oil and gas field applications[J]. SPE 164162, 2013.
[17]	张洁,蔡丹,陈刚,等. 多胺型泥页岩抑制剂对黏土水化膨胀的抑制性能评价[J]. 天然气工业,2014,34(6):85-90. ZHANG Jie, CAI Dan, CHEN Gang, et al. Performance assessment of a polyamine swelling inhibitor for clays and shale[J]. Natural Gas Industry, 2014, 34(6):85-90.
[18]	罗霄,都伟超,蒲晓林,等. 抗高温有机硅-胺类抑制剂的研制与性能研究[J].油田化学,2016,33(4):575-580. LUO Xi ao, DU Weichao, PU Xi aol in, et al. Development and performance study of high temperature resistant organosilicon-amine inhibitors[J]. Oilfield Chemistry,2016,33(4):575-580.
[19]	钟汉毅,黄维安,邱正松,等. 新型两亲性低分子多胺页岩抑制剂的特性[J]. 东北石油大学学报,2012, 36(5):51-60. ZHONG Hanyi, HUANG Weian, QIU Zhengsong, et al. Characteristics of novel amphiphilic low molecular polyamine shale inhibitors[J]. Journal of Northeast Petroleum University,2012,36(5):51-60.
[20]	AHMED H M,KAMAL M S,AL-HARTHI M. Polymeric and low molecular weight shale inhibitors:a review[J]. Fuel, 2019, 251:187-217.
[21]	YANG Lili, JIANG Guancheng, SHI Yawei, et al. Application of ionic liquid and polymeric ionic liquid as shale hudration inhibitors[J]. Energy & Fuels, 2017, 31(4):4308-4317.
[22]	QUAINOO A K, NEGASH M N, BAVOH B C, et al. A perspective on the potential application of bio-inhibitors for shale stabilization during drilling and hydraulic fracturing processes[J]. Journal of Natural Gas Science and Engineering, 2020,103380.
[23]	LUO Zhihua,PEI Jingjing,WANG Longxiang,et al. Influence of an ionic liquid on rheological and filtration properties of water-based drilling fluids at high temperatures[J]. Appl Clay Sci, 2017, 136:96-102.
[24]	TARAGHIKHAH S, MOHAMMADI M K, NOWTARAKI K T, et al. Now it is the time to forget potassium based shale inhibitors by developing nano silica-alumina based drilling fluid:Laboratory study proves improvement in shale inhibition and temperature stability[J]. SPE 186424, 2017.
[25]	IBRAHIM M A,SALEH T A. Partially aminated acrylic acid grafted activated carbon as inexpensive shale hydration inhibitor[J]. Carbohydrate Research,2020, 107960.
[26]	JIANG Guancheng, NI Xiaoxiao, YANG Lili, et al. Synthesis of superamphiphobic nanofluid as a multifunctional additive in oil-based drilling fluid, especially the stabilization performance on the water/oil interface[J]. Colloids and Surfaces A:Physicochemical and Engineering Aspects, 2020,124385.
[27]	WILSON M J, WILSON L. Clay mineralogy and shale instability:an alternative conceptual analysis.[J].Clay Minerals,2014,49(2):127-145.
[28]	宣扬,蒋官澄,李颖颖,等. 环保型高效页岩抑制剂聚赖氨酸的制备与评价[J].天然气工业,2016,36(2):84-91. XUAN Yang, JIANG Guancheng, LI Yingying, et al. Preparation and evaluation on polylysine:an environmentally-friendly efficient shale inhibitor[J]. Natural Gas Industry,2016,36(2):84-91.
[29]	MOSLEMIZADEH A, AGHDAM S K Y, SHAHBAZI K, et al. A triterpenoid saponin as an environmental friendly and biodegradable clay swelling inhibitor[J]. Journal of Molecular Liquids,2017,247:269-280.
[30]	BARATI P, SHAHBAZI K, KAMARI M, et al. Shale hydration inhibition characteristics and mechanism of a new amine-based additive in water-based drilling fluids[J]. Petroleum,2017,3:476-482.
[31]	赵素丽,肖超,宋明全. 泥页岩抑制剂乙基葡糖苷的研制[J]. 油田化学,2004,21(3):202-204. ZHAO Suli,XIAO Chao,SONG Mingquan. Development of shale inhibitor ethyl glucoside[J]. Oilfield Chemistry,2004,21(3):202-204.
[32]	LOPES G,OLIVEIRA T C C,AURORA P R,et al. Cationic and hydrophobically modified chitosans as additives for water-based drilling fluids[J]. Journal of Applied Polymerence,2014,40300.
[33]	NI Weijun,CHEN Guang,LI Lili,et al. Preparation and application of a glucose graft copolyammonium as shale inhibitor[J].Russian Journal of Applied Chemistry, 2016,89(8):1354-1359.
[34]	蒋官澄,王金树,宣扬. 甲基硅酸钾页岩抑制剂的性能评价与作用机理[J]. 科学技术与工程,2014,14(8):6-10. JIANG Guancheng,WANG Jinshu,XUAN Yang. Performance evaluation and action mechanism of potassium methykl silicate shale inhibitor[J].Science Technology and Engineering,2014,14(8):6-10.
[35]	吕开河,邱正松,孙明波. 甲基葡萄糖苷的防塌机理研究[J]. 天然气工业,2007,27(2):70-72. LYU Kaihe,QIU Zhengsong,SUN Mingbo. Study on anti-sloughing mechanism of methyl glucoside[J].Natural Gas Industry,2007,27(2):70-72.
[36]	KARTNALLER V,FERREIRA C C,VILLABONAESTUPINAN S,et al. Laser beam backscattering as a new tool to study the effect of inhibitors on shale particleswater interactions:a real-time analysis[J].Appl Clay Sci, 2017,150:89-97.
[37]	RANA A,ARFAJ M K,SALEH T A. Advanced developments in shale inhibitors for oil production with low environmental footprints-a review[J].Fuel,2019, 247:237-249.