泡沫压裂液研究进展与展望
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摘要
综述了起泡剂和稳泡剂在泡沫压裂液体系中的发展和应用以及泡沫压裂液的宏观评价指标,分析表明泡沫压裂液体系正朝着更清洁,更能适应苛刻环境发展。提出了从理论上研究多元起泡剂复配体系,添加纤维素类物质形成结构流体稳定泡沫,深入研究非水基泡沫压裂液并实现现场应用,完善泡沫压裂液流变性评价方式,从微观上解释泡沫滤失携砂现象等研究方向,以期泡沫压裂液能在油气生产领域占据更重要的地位。
The development and application of foaming agent and foam stabilizer in foam fracturing fluid system and the macro evaluation index of foam fracturing fluid are summarized.The analysis shows that the foam fracturing fluid system is cleaner and can adapt to the development of harsh environment.The direction of theoretical research include multiple foaming agent complex system,adding cellulosic material to form structural fluid stable foam,studying non water base foam fracturing fluid and realizing field application,perfecting the evaluation mode of foam fracturing fluid rheology,explaining the phenomenon of foam loss carrying by micro means and so on.Expect to play a more important role in the field of oil and gas production.
The development and application of foaming agent and foam stabilizer in foam fracturing fluid system and the macro evaluation index of foam fracturing fluid are summarized.The analysis shows that the foam fracturing fluid system is cleaner and can adapt to the development of harsh environment.The direction of theoretical research include multiple foaming agent complex system,adding cellulosic material to form structural fluid stable foam,studying non water base foam fracturing fluid and realizing field application,perfecting the evaluation mode of foam fracturing fluid rheology,explaining the phenomenon of foam loss carrying by micro means and so on.Expect to play a more important role in the field of oil and gas production.
引文
[1]Wanniarachchi W A M,Ranjith P G,Perera M S A.Shale gas fracturing using foam-based fracturing fluid:a review[J].Environmental Earth Sciences,2017,76(2):90-91.
[2]杨兆中,彭鹏,张健,等.煤层氮气泡沫压裂液研究与应用[J].油气藏评价与开发,2016,6(1):78-82.
[3]Wanniarachchi W A M,Ranjith P G,Perera M S A,et al.Current opinions on foam-based hydro-fracturing in deep geological reservoirs[J].Geomechanics and Geophysics for Geo-Energy and Geo-Resources,2015,1(3/4):121-134.
[4]Jing Z,Feng C,Wang S,et al.Effect of foam quality on flow behavior of liquid CO2-based foam fracturing fluid stabilized by hydrofluoroether[J].Journal of Petroleum Science and Engineering,2017,159:710-716.
[5]Beck G,Nolen C,Hoopes K,et al.Laboratory evaluation of a natural gas-based foamed fracturing fluid[C]∥SPE.Annual Technical Conference and Exhibition.San Antonio,Texas,USA:Society of Petroleum Engineers,2017.
[6]谭明文,何兴贵,张绍彬,等.泡沫压裂液研究进展[J].钻采工艺,2008,31(5):129-132.
[7]Wanniarachchi W A M,Ranjith P G,Perera M S A,et al.Investigation of effects of fracturing fluid on hydraulic fracturing and fracture permeability of reservoir rocks:An experimental study using water and foam fracturing[J].Engineering Fracture Mechanics,2018,194:117-135.
[8]申峰,杨洪,刘通义,等.抗高温清洁CO2泡沫压裂液在页岩气储层的应用[J].石油钻采工艺,2016,38(1):93-97.
[9]高亚罡,陈光杰,刘通义,等.聚合物-CO2泡沫压裂液性能研究及现场应用[J].油田化学,2017,34(3):438-443.
[10]刘通义,董国峰,林波,等.一种清洁CO2泡沫压裂液稠化剂的合成与评价[J].现代化工,2016(6):92-95.
[11]Fei Y,Johnson R L,Gonzalez M,et al.Experimental and numerical investigation into nano-stabilized foams in low permeability reservoir hydraulic fracturing applications[J].Fuel,2018,213:133-143.
[12]杨浩珑,向祖平,李龙,等.CO2泡沫双子表面活性剂清洁压裂液研究与试验[J].石油钻探技术,2018,46(2):92-97.
[13]Anandan R,Johnson S,Barati R.Polyelectrolyte complex stabilized CO2foam systems for hydraulic fracturing application[C]//SPE.Liquids-Rich Basins Conference-North America.Midland,Texas,USA:Society of Petroleum Engineers,2017.
[14]赵修太,王泉,王增宝,等.高温高盐油藏常用起泡剂研究进展[J].材料导报,2016,30(5):75-80.
[15]张潇玲,罗根祥,刘春生,等.阴离子Gemini表面活性剂的合成进展[J].化工科技,2012,20(2):68-71.
[16]许卫,李勇明,郭建春,等.氮气泡沫压裂液体系的研究与应用[J].西南石油大学学报:自然科学版,2002,24(3):64-67.
[17]Al-Muntasheri G A,Li L,Liang F,et al.Concepts in cleanup of fracturing fluids used in conventional reservoirs:Aliterature review[J].SPE Production&Operations,2018,33(2):196-213.
[18]丁云宏,丛连铸,卢拥军,等.CO2泡沫压裂液的研究与应用[J].石油勘探与开发,2002,29(4):103-105.
[19]周继东,朱伟民,卢拥军,等.二氧化碳泡沫压裂液研究与应用[J].油田化学,2004,21(4):316-319.
[20]吴金桥,李志航,宋振云,等.AL-1酸性交联CO2泡沫压裂液研究与应用[J].钻井液与完井液,2008,25(6):53-55.
[21]Luo X,Ren X,Wang S,et al.Experimental study on convection heat-transfer characteristics of BCG-CO2fracturing fluid[J].Journal of Petroleum Science and Engineering,2018,160:258-266.
[22]韩玉淳,王毅琳.Gemini表面活性剂与聚合物之间相互作用的研究现状和展望[J].科学通报,2017(6):498-507.
[23]冯先华,董爱娥.表面活性剂与聚合物的相互作用[J].日用化学工业,2002,32(3):43-46.
[24]Verma A,Chauhan G,Ojha K.Synergistic effects of polymer and bentonite clay on rheology and thermal stability of foam fluid developed for hydraulic fracturing[J].Asia-Pacific Journal of Chemical Engineering,2017,12(6):872-883.
[25]张云鹏,杨兆中,李小刚,等.适用于煤层的新型氮气泡沫压裂液研究[J].应用化工,2014,43(11):1941-1944.
[26]路艳军,杨兆中,Shelepov V V,等.煤层气储层压裂现状及展望[J].煤炭科学技术,2017,45(6):73-84.
[27]Chen Y,Pope T L,Lee J C.Novel CO2-emulsified viscoelastic surfactant fracturing fluid system[C]//SPE.European Formation Damage Conference.Sheveningen,The Netherlands:Society of Petroleum Engineers,2005.
[28]吴金桥,王香增,高瑞民,等.新型CO2清洁泡沫压裂液性能研究[J].应用化工,2014,43(1):16-19.
[29]杨兆中.一种清洁压裂液及其制备方法:CN,106281292A[P].2017-01-04.
[30]Khajehpour M,Etminan S R,Wassmuth F,et al.Nanoparticles as foam stabilizer for steam-foam process[C]∥SPE.EOR Conference at Oil and Gas.Muscat,Oman:Society of Petroleum Engineers,2016.
[31]杨兆中,朱静怡,李小刚,等.纳米颗粒稳定泡沫在油气开采中的研究进展[J].化工进展,2017,36(5):1675-1681.
[32]杨兆中,朱静怡,李小刚,等.含纳米颗粒的黏弹性表面活性剂泡沫压裂液性能[J].科学技术与工程,2018,18(10):42-47.
[33]杨兆中,朱静怡,李小刚,等.纳米材料用于压裂工艺的研究进展[J].化工新型材料,2017,45(4):202-204.
[34]Yang Z,Zhu J,Li X,et al.Experimental investigation of the transformation of oil shale with fracturing fluids under microwave heating in the presence of nanoparticles[J].Energy&Fuels,2017,31(10):10348-10357.
[35]Lv Q,Li Z,Li B,et al.Study of nanoparticle-surfactantstabilized foam as a fracturing fluid[J].Industrial&Engineering Chemistry Research,2015,54(38):9468-9477.
[36]Lv Q,Li Z,Li B,et al.Silica nanoparticles as a high-performance filtrate reducer for foam fluid in porous media[J].Journal of Industrial and Engineering Chemistry,2017,45:171-181.
[37]Qajar A,Xue Z,Worthen A J,et al.Modeling fracture propagation and cleanup for dry nanoparticle-stabilizedfoam fracturing fluids[J].Journal of Petroleum Science and Engineering,2016,146:210-221.
[38]Hosseini H,Tsau J,Peltier E,et al.Lowering fresh water usage in hydraulic fracturing by stabilizing sc CO2foam with polyelectrolyte complex nanoparticles prepared in high salinity produced water[C]∥SPE International Conference and Exhibition on Formation Damage Control.Lafayette,Louisiana,USA:Society of Petroleum Engineers,2018.
[39]Tong S,Singh R,Mohanty K K.Proppant transport in fractures with foam-based fracturing fluids[C]∥SPE Annual Technical Conference and Exhibition.San Antonio,Texas,USA:Society of Petroleum Engineers,2017.
[40]Jing Z,Feng C,Wang S,et al.Origin of accelerated and hindered sedimentation of two particles in wet foam[J].The European Physical Journal E,2018,41(3):32-33.
[41]申峰,张锋三,吴金桥,等.CO2泡沫压裂液流变特性研究及应用[J].天然气地球科学,2016,27(3):566-570.
[42]王树众,罗向荣,吕明明,等.高温高压泡沫压裂液滤失伤害实验系统:CN,105388254A[P].2016-03-09.
[43]佘朝毅.一种泡沫压裂液携砂性能的评价装置和方法:CN,107305206A[P].2017-10-31.
[44]吕其超,李兆敏,李宾飞,等.双子型VES清洁泡沫压裂液稳泡性能[J].中南大学学报:自然科学版,2016,47(9):3101-3107.
[45]Du D,Li Y,Chao K,et al.Laboratory study of the NonNewtonian behavior of supercritical CO2foam flow in a straight tube[J].Journal of Petroleum Science and Engineering,2018,164:390-399.
[46]段百齐,管保山,王树众,等.氮气泡沫压裂液流变特性试验[J].石油钻采工艺,2005,27(4):71-74.
[47]Li C,Huang Y,Sun X,et al.Rheological properties study of foam fracturing fluid using CO2and surfactant[J].Chemical Engineering Science,2017,170:720-730.
[48]Ahmed S,Elraies K A,Hanamertani A S,et al.Viscosity models for polymer free CO2foam fracturing fluid with the effect of surfactant concentration,salinity and shear rate[J].Energies,2017,10(12):1969-1970.
[49]王煦,杨永钊,蒋尔梁,等.压裂液用纤维类物质的研究进展[J].西南石油大学学报:自然科学版,2010,32(3):141-144.
[50]宋时权,李继勇,邵红云,等.关于压裂用纤维材料评价方法的研究[J].化学工程与装备,2017(10):92-94.
[2]杨兆中,彭鹏,张健,等.煤层氮气泡沫压裂液研究与应用[J].油气藏评价与开发,2016,6(1):78-82.
[3]Wanniarachchi W A M,Ranjith P G,Perera M S A,et al.Current opinions on foam-based hydro-fracturing in deep geological reservoirs[J].Geomechanics and Geophysics for Geo-Energy and Geo-Resources,2015,1(3/4):121-134.
[4]Jing Z,Feng C,Wang S,et al.Effect of foam quality on flow behavior of liquid CO2-based foam fracturing fluid stabilized by hydrofluoroether[J].Journal of Petroleum Science and Engineering,2017,159:710-716.
[5]Beck G,Nolen C,Hoopes K,et al.Laboratory evaluation of a natural gas-based foamed fracturing fluid[C]∥SPE.Annual Technical Conference and Exhibition.San Antonio,Texas,USA:Society of Petroleum Engineers,2017.
[6]谭明文,何兴贵,张绍彬,等.泡沫压裂液研究进展[J].钻采工艺,2008,31(5):129-132.
[7]Wanniarachchi W A M,Ranjith P G,Perera M S A,et al.Investigation of effects of fracturing fluid on hydraulic fracturing and fracture permeability of reservoir rocks:An experimental study using water and foam fracturing[J].Engineering Fracture Mechanics,2018,194:117-135.
[8]申峰,杨洪,刘通义,等.抗高温清洁CO2泡沫压裂液在页岩气储层的应用[J].石油钻采工艺,2016,38(1):93-97.
[9]高亚罡,陈光杰,刘通义,等.聚合物-CO2泡沫压裂液性能研究及现场应用[J].油田化学,2017,34(3):438-443.
[10]刘通义,董国峰,林波,等.一种清洁CO2泡沫压裂液稠化剂的合成与评价[J].现代化工,2016(6):92-95.
[11]Fei Y,Johnson R L,Gonzalez M,et al.Experimental and numerical investigation into nano-stabilized foams in low permeability reservoir hydraulic fracturing applications[J].Fuel,2018,213:133-143.
[12]杨浩珑,向祖平,李龙,等.CO2泡沫双子表面活性剂清洁压裂液研究与试验[J].石油钻探技术,2018,46(2):92-97.
[13]Anandan R,Johnson S,Barati R.Polyelectrolyte complex stabilized CO2foam systems for hydraulic fracturing application[C]//SPE.Liquids-Rich Basins Conference-North America.Midland,Texas,USA:Society of Petroleum Engineers,2017.
[14]赵修太,王泉,王增宝,等.高温高盐油藏常用起泡剂研究进展[J].材料导报,2016,30(5):75-80.
[15]张潇玲,罗根祥,刘春生,等.阴离子Gemini表面活性剂的合成进展[J].化工科技,2012,20(2):68-71.
[16]许卫,李勇明,郭建春,等.氮气泡沫压裂液体系的研究与应用[J].西南石油大学学报:自然科学版,2002,24(3):64-67.
[17]Al-Muntasheri G A,Li L,Liang F,et al.Concepts in cleanup of fracturing fluids used in conventional reservoirs:Aliterature review[J].SPE Production&Operations,2018,33(2):196-213.
[18]丁云宏,丛连铸,卢拥军,等.CO2泡沫压裂液的研究与应用[J].石油勘探与开发,2002,29(4):103-105.
[19]周继东,朱伟民,卢拥军,等.二氧化碳泡沫压裂液研究与应用[J].油田化学,2004,21(4):316-319.
[20]吴金桥,李志航,宋振云,等.AL-1酸性交联CO2泡沫压裂液研究与应用[J].钻井液与完井液,2008,25(6):53-55.
[21]Luo X,Ren X,Wang S,et al.Experimental study on convection heat-transfer characteristics of BCG-CO2fracturing fluid[J].Journal of Petroleum Science and Engineering,2018,160:258-266.
[22]韩玉淳,王毅琳.Gemini表面活性剂与聚合物之间相互作用的研究现状和展望[J].科学通报,2017(6):498-507.
[23]冯先华,董爱娥.表面活性剂与聚合物的相互作用[J].日用化学工业,2002,32(3):43-46.
[24]Verma A,Chauhan G,Ojha K.Synergistic effects of polymer and bentonite clay on rheology and thermal stability of foam fluid developed for hydraulic fracturing[J].Asia-Pacific Journal of Chemical Engineering,2017,12(6):872-883.
[25]张云鹏,杨兆中,李小刚,等.适用于煤层的新型氮气泡沫压裂液研究[J].应用化工,2014,43(11):1941-1944.
[26]路艳军,杨兆中,Shelepov V V,等.煤层气储层压裂现状及展望[J].煤炭科学技术,2017,45(6):73-84.
[27]Chen Y,Pope T L,Lee J C.Novel CO2-emulsified viscoelastic surfactant fracturing fluid system[C]//SPE.European Formation Damage Conference.Sheveningen,The Netherlands:Society of Petroleum Engineers,2005.
[28]吴金桥,王香增,高瑞民,等.新型CO2清洁泡沫压裂液性能研究[J].应用化工,2014,43(1):16-19.
[29]杨兆中.一种清洁压裂液及其制备方法:CN,106281292A[P].2017-01-04.
[30]Khajehpour M,Etminan S R,Wassmuth F,et al.Nanoparticles as foam stabilizer for steam-foam process[C]∥SPE.EOR Conference at Oil and Gas.Muscat,Oman:Society of Petroleum Engineers,2016.
[31]杨兆中,朱静怡,李小刚,等.纳米颗粒稳定泡沫在油气开采中的研究进展[J].化工进展,2017,36(5):1675-1681.
[32]杨兆中,朱静怡,李小刚,等.含纳米颗粒的黏弹性表面活性剂泡沫压裂液性能[J].科学技术与工程,2018,18(10):42-47.
[33]杨兆中,朱静怡,李小刚,等.纳米材料用于压裂工艺的研究进展[J].化工新型材料,2017,45(4):202-204.
[34]Yang Z,Zhu J,Li X,et al.Experimental investigation of the transformation of oil shale with fracturing fluids under microwave heating in the presence of nanoparticles[J].Energy&Fuels,2017,31(10):10348-10357.
[35]Lv Q,Li Z,Li B,et al.Study of nanoparticle-surfactantstabilized foam as a fracturing fluid[J].Industrial&Engineering Chemistry Research,2015,54(38):9468-9477.
[36]Lv Q,Li Z,Li B,et al.Silica nanoparticles as a high-performance filtrate reducer for foam fluid in porous media[J].Journal of Industrial and Engineering Chemistry,2017,45:171-181.
[37]Qajar A,Xue Z,Worthen A J,et al.Modeling fracture propagation and cleanup for dry nanoparticle-stabilizedfoam fracturing fluids[J].Journal of Petroleum Science and Engineering,2016,146:210-221.
[38]Hosseini H,Tsau J,Peltier E,et al.Lowering fresh water usage in hydraulic fracturing by stabilizing sc CO2foam with polyelectrolyte complex nanoparticles prepared in high salinity produced water[C]∥SPE International Conference and Exhibition on Formation Damage Control.Lafayette,Louisiana,USA:Society of Petroleum Engineers,2018.
[39]Tong S,Singh R,Mohanty K K.Proppant transport in fractures with foam-based fracturing fluids[C]∥SPE Annual Technical Conference and Exhibition.San Antonio,Texas,USA:Society of Petroleum Engineers,2017.
[40]Jing Z,Feng C,Wang S,et al.Origin of accelerated and hindered sedimentation of two particles in wet foam[J].The European Physical Journal E,2018,41(3):32-33.
[41]申峰,张锋三,吴金桥,等.CO2泡沫压裂液流变特性研究及应用[J].天然气地球科学,2016,27(3):566-570.
[42]王树众,罗向荣,吕明明,等.高温高压泡沫压裂液滤失伤害实验系统:CN,105388254A[P].2016-03-09.
[43]佘朝毅.一种泡沫压裂液携砂性能的评价装置和方法:CN,107305206A[P].2017-10-31.
[44]吕其超,李兆敏,李宾飞,等.双子型VES清洁泡沫压裂液稳泡性能[J].中南大学学报:自然科学版,2016,47(9):3101-3107.
[45]Du D,Li Y,Chao K,et al.Laboratory study of the NonNewtonian behavior of supercritical CO2foam flow in a straight tube[J].Journal of Petroleum Science and Engineering,2018,164:390-399.
[46]段百齐,管保山,王树众,等.氮气泡沫压裂液流变特性试验[J].石油钻采工艺,2005,27(4):71-74.
[47]Li C,Huang Y,Sun X,et al.Rheological properties study of foam fracturing fluid using CO2and surfactant[J].Chemical Engineering Science,2017,170:720-730.
[48]Ahmed S,Elraies K A,Hanamertani A S,et al.Viscosity models for polymer free CO2foam fracturing fluid with the effect of surfactant concentration,salinity and shear rate[J].Energies,2017,10(12):1969-1970.
[49]王煦,杨永钊,蒋尔梁,等.压裂液用纤维类物质的研究进展[J].西南石油大学学报:自然科学版,2010,32(3):141-144.
[50]宋时权,李继勇,邵红云,等.关于压裂用纤维材料评价方法的研究[J].化学工程与装备,2017(10):92-94.
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