[1] 王怀勐,朱炎铭,李伍,等. 煤层气赋存的两大地质控制因素[J].煤炭学报,2011,36(7):1129-1134.
WANG Huaimeng,ZHU Yanming,LI Wu,et al.Two major geological control factors of occurrence characteristics of CBM[J].Journal of China Coal Society,2011,36(7):1129-1134.
[2] 李相臣,康毅力,周来诚,等.水饱和煤岩储层甲烷运移动态特征[J].石油学报,2015,36(7):876-881.
LI Xiangchen,KANG Yili,ZHOU Laicheng,et al.Dynamic characteristics of methane transport in water saturated coal[J].Acta Petrolei Sinica,2015,36(7):876-881.
[3] 吴国干,方辉,韩征,等."十二五"中国油气储量增长特点及"十三五"储量增长展望[J].石油学报,2016,37(9):1145-1151.
WU Guogan,FANG Hui,HAN Zheng,et al.Growth features of measured oil initially in place & gas initially in place during the 12th Five-Year Plan and its outlook for the 13th Five-Year Plan in China[J].Acta Petrolei Sinica,2016,37(9):1145-1151.
[4] 陈振宏,王一兵,孙平.煤粉产出对高煤阶煤层气井产能的影响及其控制[J].煤炭学报,2009,34(2):229-232.
CHEN Zhenhong,WANG Yibing,SUN Ping.Destructive influences and effectively treatments of coal powder to high rank coalbed methane production[J].Journal of China Coal Society,2009,34(2):229-232.
[5] 綦耀光,张芬娜,刘冰,等.煤层气井产气通道内煤粉运动特征分析[J].煤炭学报,2013,38(9):1627-1633.
QI Yaoguang,ZHANG Fenna,LIU Bing,et al.Calculation on discharge flow of pulverized coal in gas production channel for coalbed methane well[J].Journal of China Coal Society,2013,38(9):1627-1633.
[6] 张芬娜,綦耀光,莫日和,等.单相流煤层气井裂隙煤粉受力分析及启动条件[J].煤矿开采,2011,16(6):11-13.
ZHANG Fenna,QI Yaoguang,MO Rihe,et al.Force analysis of uniflow coal-dust in cracks of mine for CBM and starting condition[J].Coal Mining Technology,2011,16(6):11-13.
[7] 马飞英,刘全稳,王林,等.单相水流阶段煤层裂缝中沉积煤粉的起动[J].煤炭学报,2016,41(4):917-920.
MA Feiying,LIU Quanwen,WANG Lin,et al.Motion of incipient sedimental coal fines in coal seam fractures at single phase water flow stage[J].Journal of China Coal Society,2016,41(4):917-920.
[8] SEIDLE J P,JEANSONNE M W,ERICKSON D J.Application of matchstick geometry to stress dependent permeability in coals[R].SPE 24361,1992.
[9] LAUBACH S E,MARRETT R A,OLSON J E,et al.Characteristics and origins of coal cleat:a review[J].International Journal of Coal Geology,1998,35(1/4):175-207.
[10] SHARMA P,FLURY M,ZHOU Jun.Detachment of colloids from a solid surface by a moving air-water interface[J].Journal of Colloid and Interface Science,2008,326(1):143-150.
[11] GOLDMAN A J,COX R G,BRENNER H.Slow viscous motion of a sphere parallel to a plane wall-Ⅱ couette flow[J].Chemical Engineering Science,1967,22(4):653-660.
[12] O' NEILL M E.A sphere in contact with a plane wall in a slow linear shear flow[J].Chemical Engineering Science, 1968,23(11):1293-1298.
[13] SAFFMAN P G.The lift on a small sphere in a slow shear flow[J].Journal of Fluid Mechanics,1965,22(2):385-400.
[14] RABINOVICH E,KALMAN H.Incipient motion of individual particles in horizontal particle-fluid systems:B.Theoretical analysis[J].Powder Technology,2009,192(3):326-338.
[15] ISRAELACHVILI J N.Intermolecular and surface forces[M].London:Academic Press,1992.
[16] BERGENDAHL J,GRASSO D.Prediction of colloid detachment in a model porous media:thermodynamics[J].AIChE Journal,1999,45(3):475-484.
[17] VAN OSS C J,CHAUDHURY M K,GOOD R J.Interfacial Lifshitz-van der Waals and polar interactions in macroscopic systems[J].Chemical Reviews,1988,88(6):927-941.
[18] RAVEENDRAN P,AMIRTHARAJAH A.Role of short-range forces in particle detachment during filter backwashing[J].Journal of Environmental Engineering,1995,121(12):860-868.
[19] HOGG R,HEALY T W,FUERSTENAU D W.Mutual coagulation of colloidal dispersions[J].Transactions of the Faraday Society,1966,62:1638-1651.
[20] RUCKENSTEIN E,PRIEVE D C.Adsorption and desorption of particles and their chromatographic separation[J].AIChE Journal,1976,22(2):276-283.
[21] 张明青,刘炯天,王永田.水质硬度对煤泥水中煤和高岭石颗粒分散行为的影响[J].煤炭学报,2008,33(9):1058-1062.
ZHANG Mingqing,LIU Jiongtian,WANG Yongtian.Effects of water hardness on the dispersion of fine coal and kaolinite in coal slurry[J].Journal of China Coal Society,2008,33(9):1058-1062.
[22] BERGENDAHL J,GRASSO D.Prediction of colloid detachment in a model porous media:hydrodynamics[J].Chemical Engineering Science,2000,55(9):1523-1532.
[23] SHARMA M M,CHAMOUN H,SITA RAMA SARMA D S H,et al.Factors controlling the hydrodynamic detachment of particles from surfaces[J].Journal of Colloid and Interface Science,1992,149(1):121-134.
[24] JOHNSON K L,KENDALL K,ROBERTS A D.Surface energy and the contact of elastic solids[J].Proceedings of the Royal Society A:Mathematical,Physical and Engineering Sciences,1971,324(1558):301-313.
[25] RYAN J N,ELIMELECH M.Colloid mobilization and transport in groundwater[J].Colloids and Surfaces A:Physicochemical and Engineering Aspects,1996,107:1-56.
[26] BRADFORD S A,TORKZABAN S.Colloid transport and retention in unsaturated porous media:a review of interface-,collector-,and pore-scale processes and models[J].Vadose Zone Journal,2008,7(2):667-681.
[27] 张遂安,曹立虎,杜彩霞.煤层气井产气机理及排采控压控粉研究[J].煤炭学报,2014,39(9):1927-1931.
ZHANG Sui'an,CAO Lihu,DU Caixia.Study on CBM production mechanism and control theory of bottom-hole pressure and coal fines during CBM well production[J].Journal of China Coal Society,2014,39(9):1927-1931.
[28] 高波,康毅力,史斌,等.压裂液对煤岩气藏渗流性能的影响[J].天然气工业,2015,35(9):64-69.
GAO Bo,KANG Yili,SHI Bin,et al.Effect of fracturing fluids on the seepage properties of coalbed gas reservoirs[J].Natural Gas Industry,2015,35(9):64-69.
[29] GERCEK H.Poisson's ratio values for rocks[J].International Journal of Rock Mechanics and Mining Sciences,2007,44(1):1-13.
[30] HEDAN S,HUBERT F,PRÊT D,et al.Measurement of the elastic properties of swelling clay minerals using the digital image correlation method on a single macroscopic crystal[J].Applied Clay Science,2015,116-117:248-256.
[31] 李相臣,康毅力,尹中山.不同化学环境下煤岩表面电性与润湿性特征[J].中国矿业大学学报,2014,43(5):864-869.
LI Xiangchen,KANG Yili,YIN Zhongshan.Surface electricity and wettability of coal rock under the condition of different chemical environments[J].Journal of China University of Mining & Technology,2014,43(5):864-869.
[32] SCHEMBRE J M,KOVSCEK A R.Mechanism of formation damage at elevated temperature[J].Journal of Energy Resources Technology,2005,127(3):171-180.
[33] FRANCHI A,O'MELIA C R.Effects of natural organic matter and solution chemistry on the deposition and reentrainment of colloids in porous media[J].Environmental Science & Technology,2003,37(6):1122-1129.
[34] BROOK M S,HEBBLEWHITE B W,MITRA R.Cleat aperture-size distributions:a case study from the Late Permian Rangal coal measures,Bowen Basin,Australia[J].International Journal of Coal Geology,2016,168:186-192.
[35] 李丹琼,张士诚,张遂安,等.基于煤系渗透率各向异性测试的水平井穿层压裂效果模拟[J].石油学报,2015,36(8):988-994.
LI Danqiong,ZHANG Shicheng,ZHANG Sui'an,et al.Effect simulation of horizontal well fracturing through strata based on coal seam permeability anisotropy test[J].Acta Petrolei Sinica,2015,36(8):988-994.
[36] 刘大伟,康毅力,雷鸣,等.保护碳酸盐岩储层屏蔽暂堵技术研究进展[J].钻井液与完井液,2008,25(5):57-61.
LIU Dawei,KANG Yili,LEI Ming,et al.Research progresses in temporary plugging technology for carbonate reservoir protection[J].Drilling Fluid & Completion Fluid,2008,25(5):57-61.
[37] KAKADJIAN S,GARZA J L,ZAMORA F.Enhancing gas production in coal bed methane formations with zeta potential altering system[R].SPE 134823,2010.
[38] JAIMES M G,VALENCIA D,BAHAMON J I,et al.Modifying the zeta potential of formation fines utilizing chemical treatment:an alternative to sand control to increase productivity:a Colombian field application[R].SPE 169397,2014.
[39] NGUYEN P D,WEAVER J D,RICKMAN R D,et al.Controlling formation fines at their sources to maintain well productivity[J].SPE Production & Operations,2007,22(2):202-215.
[40] STANCIU C,VO L K,NGUYEN P D,et al.Maintaining well productivity through controlling fines migration and scale formation[R].SPE 174364,2015.
[41] ASSEF Y,ARAB D,POURAFSHARY P.Application of nanofluid to control fines migration to improve the performance of low salinity water flooding and alkaline flooding[J].Journal of Petroleum Science and Engineering,2014,124:331-340.
[42] HABIBI A,AHMADI M,POURAFSHARY P,et al.Reduction of fines migration by nanofluids injection:an experimental study[J].SPE Journal,2013,18(2):309-318.
[43] 周峰,吴杨."润滑"之新解[J].摩擦学学报,2016,36(1):132-136.
ZHOU Feng,WU Yang.A novel insight into "lubrication"[J].Tribology,2016,36(1):132-136.
[44] 刘雪芬,康毅力,罗平亚,等.氟化物对致密砂岩气体渗流能力的影响[J].石油学报,2015,36(8):995-1003.
LIU Xuefen,KANG Yili,LUO Pingya,et al.Impact of fluoride on seepage ability of tight sandstone gas[J].Acta Petrolei Sinica,2015,36(8):995-1003. |