含水合物地层低温钻井液微观结构的分形研究
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- 论文作者:韩博 ; 鲁光银 ; 曹函 ; 张凌 ; 赵云威 ; 张亮
- 年:2016
- 作者机构:中南大学;中国地质大学(武汉);
- 会议召开时间:2016-10-15
- 会议录名称:2016中国地球科学联合学术年会论文集(三十三)——专题61:分形理论在地学和石油工程中的应用、专题62:非常规油气(致密油气)勘探与开发地球物理基础理论方法
- 语种:中文
- 分类号:P618.13;TE254
- 学会代码:ZGDW
- 会议名称:2016中国地球科学联合学术年会
- 会议地点:中国北京
- 主办单位:中国地球物理学会、中国地震学会、全国岩石学与地球动力学研讨会组委会、中国地质学会构造地质学与地球动力学专业委员会、中国地质学会区域地质与成矿专业委员会
- 学会名称:中国地球物理学会
- 页数:2
- 文件大小:1115k
- 原文格式:D
- 会议级别:全国
摘要
对于天然气水合物的勘探与开发,在钻进过程中,低温钻井液中各组分相互作用形成的受剪切作用影响的微观结构起到非常关键的作用。在天然气水合物勘探开发过程中,钻井工艺和侵入地层的钻井液会引起地层中水合物的分解,而水合物分解不利于井壁的稳定;钻井过程中产生的含水合物岩屑与水合物分解所产生的部分水和气体进入环空钻井液中,引起钻井液性能改变(Xu,2004;宁伏龙等,2008);此外,岩屑中水合物也可能由于周围温度和压力条件的改变而产生分解,而分解产生的气、水混合物也能重新形成水合物而堵塞环空,不利于钻井的顺利进行(张凌,2011)。
引文
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[13]Yousif M H,Sloan E D.Experimental investigation of hydrate formation and dissociation in consolidated porous media[J].SPE Reservoir Engineering,1991,6:452-458.
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[16]Mattew A Clarke,P R Bishnoi.Determination of the intrinsic rate constant and activation energy of CO2 gas hydrate decomposition using in-situ particle size analysis[J].Chem Eng Sci,2004,59:2983-2993.
[17]张济中.分形[M].北京:清华大学出版社,1995.
[18]KATZ A J,THOMPSON A H.Fractal sandstone pores:Implications for conductivity and pore formation[J].Phys Rev Lett,1985,54:1325-1328.
[19]J.S.Wu,B.M.Yu.A fractal resistance model for flow through porous media[J].Int.J.Heat Mass Transfer50(2007):3925-3932.
[20]B.M.Yu.Analysis of flow in fractal porous media[J].Appl.Mech.Rev.61(2008)050801.
[21]D.H.Shou,J.T.Fan,F.Ding.A difference-fractal model for the permeability of fibrous porous media[J].Phys.Lett.A374(2010)1201-1204.
[22]Y.Ono,H.Mayama,I.Furo,A.Sagidullin,K.Matsushima,H.Ura,T.Uchiyama,K.Tsujii,Characterization and structural investigation of fractal porous-silica over an extremely wide scale range of pore size[J].J.Colloid Interf.Sci.336(2009)215-225.
[23]L.Z.Zhang,A fractal model for gas permeation through porous membranes[J].Int.J.Heat Mass Transfer 51(2008)5288-5295.
[24]J.Cai,X.L.Huai,Study on fluid-solid coupling heat transfer in fractal porous medium by lattice Boltzmann method[J].Appl.Therm.Eng.30(2010)715-723.
[25]韩博,张凌,王童,张学东,衣雪峰,刘向飞.不同剪切作用下水合物钻井液微观结构试验研究[J].地质与勘探,2013,04:760-769.
[26]张凌,蒋国盛,宁伏龙,韩博,吴翔,窦斌.钻井液微观结构对水合物分解传热传质特性的影响探讨[A].渗流力学与工程的创新与实践——第十一届全国渗流力学学术大会论文集[C].中国力学学会、中国石油学会、中国煤炭学会、中国岩石力学与工程学会:2011,6.
[27]韩博,张凌,蒋国盛,等.不同剪切作用下CMC水溶液的微观结构研究[J].地质科技情报,2012,01:122-126.
[28]Yujun Feng,Pingya Luo,Chuanqiu Luo and Qituan Yan.Direct visualization of microstructures in hydrophobically modified polyacrylamide aqueous solution by environmental scanning electron microscopy.Polym Int,2002(51):931–938.
[29]K.Kuperkar,L.Abezgauz,D.Danino,G.Verma,P.A.Hassan,V.K.Aswal,D.Varade,P.Bahadur.Viscoelastic micellar water/CTAB/Na NO3 solutions:Rheology,SANS and cryo-TEM analysis.Journal of Colloid and Interface Science 323(2008)403-409.
[2]蒋国盛,王达,汤凤林,叶建良,邹华耀,倪晓阳等.天然气水合物的勘探与开发[M].武汉:中国地质大学出版社,2002.
[3]Sloan,E.D.,2003.Fundamental principles and applications of natural gas hydrates.Nature 426,353-359.
[4]宁伏龙,蒋国盛,张凌,吴翔,窦斌,涂运中.影响含天然气水合物地层井壁稳定的关键因素分析[J].石油钻探技术,2008,36(3):59-61.
[5]张凌.天然气水合物赋存地层钻井液试验研究[D].中国地质大学(武汉),博士学位论文,2006.
[6]Jason W.Lachance,E.Dendy Sloan,Carolyn A.Koh.Determining gas hydrate kinetic inhibitor effectiveness using emulsions.Chemical Engineering Science 64(2009)180-184.
[7]Francisco Malaret,Christine Dalmazzone and Anne Sinquin.STUDY OF THE EFFECT OF COMMERCIAL KINETIC INHIBITORS ON GAS-HYDRATE FORMATION BY DSC:NON-CLASSICAL STRUCTURES Proceedings of the 6th International Conference on Gas Hydrates,Vancouver,Canada,July 6-10,2008.
[8]Arvind Gupta,Jason Lachance,E.D.Sloan Jr.,Carolyn A.Koh.Measurements of methane hydrate heat of dissociation using high pressure differential scanning calorimetry.Chemical Engineering Science 63(2008)5848-5853.
[9]P.Le Parlou?r,Christine Dalmazzone,B.Herzhaft,L.Rousseau and C.Mathonat.CHARACTERISATION OF GAS HYDRATES FORMATION USING A NEW HIGH PRESSURE MICRO-DSC.Journal of Thermal Analysis and Calorimetry,Vol.78(2004)165-172.
[10]张达明,徐同台,牛亚斌,魏宝和.用冷冻干燥技术研究钻井液及泥饼的微观结构[J].钻井液与完井液,1995,12(3):1-7.
[11]朱怀江,赵常青,罗健辉,魏宝和,杨静波,朱德升.聚合物水化分子的微观结构研究[J].电子显微学报,2005,24(3):205-209.
[12]朱怀江,罗健辉,隋新光,姚天明,杨凤华,代素娟,杨静波.新型聚合物溶液的微观结构研究[J].石油学报,2006,27(6):79-83.
[13]Yousif M H,Sloan E D.Experimental investigation of hydrate formation and dissociation in consolidated porous media[J].SPE Reservoir Engineering,1991,6:452-458.
[14]Sun X F,Mohanty K K.Kinetic simulation of methane hydrate formation and dissociation in porous media[J].Chemical Engineering Science,2006,61:3476-3495.
[15]Mattew A Clarke,P R Bishnoi.Determination of the intrinsic rate of ethane gas hydrate decomposition[J].Chem Eng Sci,2000,55:4869-4883.
[16]Mattew A Clarke,P R Bishnoi.Determination of the intrinsic rate constant and activation energy of CO2 gas hydrate decomposition using in-situ particle size analysis[J].Chem Eng Sci,2004,59:2983-2993.
[17]张济中.分形[M].北京:清华大学出版社,1995.
[18]KATZ A J,THOMPSON A H.Fractal sandstone pores:Implications for conductivity and pore formation[J].Phys Rev Lett,1985,54:1325-1328.
[19]J.S.Wu,B.M.Yu.A fractal resistance model for flow through porous media[J].Int.J.Heat Mass Transfer50(2007):3925-3932.
[20]B.M.Yu.Analysis of flow in fractal porous media[J].Appl.Mech.Rev.61(2008)050801.
[21]D.H.Shou,J.T.Fan,F.Ding.A difference-fractal model for the permeability of fibrous porous media[J].Phys.Lett.A374(2010)1201-1204.
[22]Y.Ono,H.Mayama,I.Furo,A.Sagidullin,K.Matsushima,H.Ura,T.Uchiyama,K.Tsujii,Characterization and structural investigation of fractal porous-silica over an extremely wide scale range of pore size[J].J.Colloid Interf.Sci.336(2009)215-225.
[23]L.Z.Zhang,A fractal model for gas permeation through porous membranes[J].Int.J.Heat Mass Transfer 51(2008)5288-5295.
[24]J.Cai,X.L.Huai,Study on fluid-solid coupling heat transfer in fractal porous medium by lattice Boltzmann method[J].Appl.Therm.Eng.30(2010)715-723.
[25]韩博,张凌,王童,张学东,衣雪峰,刘向飞.不同剪切作用下水合物钻井液微观结构试验研究[J].地质与勘探,2013,04:760-769.
[26]张凌,蒋国盛,宁伏龙,韩博,吴翔,窦斌.钻井液微观结构对水合物分解传热传质特性的影响探讨[A].渗流力学与工程的创新与实践——第十一届全国渗流力学学术大会论文集[C].中国力学学会、中国石油学会、中国煤炭学会、中国岩石力学与工程学会:2011,6.
[27]韩博,张凌,蒋国盛,等.不同剪切作用下CMC水溶液的微观结构研究[J].地质科技情报,2012,01:122-126.
[28]Yujun Feng,Pingya Luo,Chuanqiu Luo and Qituan Yan.Direct visualization of microstructures in hydrophobically modified polyacrylamide aqueous solution by environmental scanning electron microscopy.Polym Int,2002(51):931–938.
[29]K.Kuperkar,L.Abezgauz,D.Danino,G.Verma,P.A.Hassan,V.K.Aswal,D.Varade,P.Bahadur.Viscoelastic micellar water/CTAB/Na NO3 solutions:Rheology,SANS and cryo-TEM analysis.Journal of Colloid and Interface Science 323(2008)403-409.