[1] 沈平平,袁士义,韩冬,等.中国陆上油田提高采收率潜力评价及发展战略研究[J].石油学报,2001,22(1):45-48.
SHEN Pingping,YUAN Shiyi,HAN Dong,et al.Oil field development strategy study and potentiality evaluation of EOR for onshore oil fields in China[J].Acta Petrolei Sinica,2001,22(1):45-48.
[2] 李阳,金强,钟建华,等.塔河油田奥陶系岩溶分带及缝洞结构特征[J].石油学报,2016,37(3):289-298.
LI Yang,JIN Qiang,ZHONG Jianhua,et al.Karst zonings and fracture-cave structure characteristics of Ordovician reservoirs in Tahe oilfield,Tarim Basin[J].Acta Petrolei Sinica,2016,37(3):289-298.
[3] 崔传智,徐建鹏,王端平,等.特高含水阶段新型水驱特征曲线[J].石油学报,2015,36(10):1267-1271.
CUI Chuanzhi,XU Jianpeng,WANG Duanping,et al.A new water flooding characteristic curve at ultra-high water cut stage[J].Acta Petrolei Sinica,2015,36(10):1267-1271.
[4] 朱丽红,杜庆龙,姜雪岩,等.陆相多层砂岩油藏特高含水期三大矛盾特征及对策[J].石油学报,2015,36(2):210-216.
ZHU Lihong,DU Qinglong,JIANG Xueyan,et al.Characteristics and strategies of three major contradictions for continental facies multi-layered sandstone reservoir at ultra-high water cut stage[J].Acta Petrolei Sinica,2015,36(2):210-216.
[5] 杜庆龙.长期注水开发砂岩油田储层渗透率变化规律及微观机理[J].石油学报,2016,37(9):1159-1164.
DU Qinglong.Variation law and microscopic mechanism of permeability in sandstone reservoir during long-term water flooding development[J].Acta Petrolei Sinica,2016,37(9):1159-1164.
[6] 王平,姜瑞忠,王公昌,等.低矿化度水驱研究进展及展望[J].岩性油气藏,2012,24(2):106-110.
WANG Ping,JIANG Ruizhong,WANG Gongchang,et al.Research advance and prospect of low salinity water flooding[J].Lithologic Reservoirs,2012,24(2):106-110.
[7] ZHANG Yongsheng,XIE Xina,MORROW N R.Waterflood performance by injection of brine with different salinity for reservoir cores[R].SPE 109849,2007.
[8] LIGTHELM D J,GRONSVELD J,HOFMAN J,et al.Novel waterflooding strategy by manipulation of injection brine composition[R].SPE 119835,2009.
[9] ZHANG Yongsheng,MORROW N R.Comparison of secondary and tertiary recovery with change in injection brine composition for crude-oil/sandstone combinations[R].SPE 99757,2006.
[10] WEBB K J,BLACK C J J,EDMONDS I J.Low salinity oil recovery-The role of reservoir condition corefloods[C]//Proceedings of 13th European Symposium on Improved Oil Recovery.Budapest,Hungary:EAGE,2005.
[11] WEBB K J,BLACK C J J,TJETLAND G.A laboratory study investigating methods for improving oil recovery in carbonates[C]//International Petroleum Technology Conference.Doha,Qatar:International Petroleum Technology Conference,2005.
[12] ASHRAF A,HADIA N,TORSAETER O,et al.Laboratory investigation of low salinity waterflooding as secondary recovery process:effect of wettability[R].SPE 129012,2010.
[13] IDOWU J,SOMERVILLE J,ADEBARI D,et al.Effect of salinity changes of the injected water on water flooding performance in carbonate reservoirs[R].SPE 150816,2011.
[14] NASRALLA R A,ALOTAIBI M B,NASR-El-Din H A.Efficiency of oil recovery by low salinity water flooding in sandstone reservoirs[R].SPE 144602,2011.
[15] MCGUIRE P L,CHATHAM J R,PASKVAN F K,et al.Low salinity oil recovery:an exciting new EOR opportunity for Alaska's North Slope[R].SPE 93903,2005.
[16] SANDENGEN K,ARNTZEN O J.Osmosis during low salinity water flooding[C]//17th European Symposium on Improved Oil Recovery.St.Petersburg,Russia:EAGE,2013.
[17] ALMADA M B P,PIETERSE S G J,MARCELIS A H M,et al.Experimental investigation on the effects of very low salinity on Middle Eastern sandstone corefloods[R].SPE 165180,2013.
[18] 程杰成,吴军政,胡俊卿.三元复合驱提高原油采收率关键理论与技术[J].石油学报,2014,35(2):310-318.
CHENG Jiecheng,WU Junzheng,HU Junqing.Key theories and technologies for enhanced oil recovery of alkaline/surfactant/polymer flooding[J].Acta Petrolei Sinica,2014,35(2):310-318.
[19] 侯健,邱茂鑫,陆努,等.采用CT技术研究岩心剩余油微观赋存状态[J].石油学报,2014,35(2):319-325.
HOU Jian,QIU Maoxin,LU Nu,et al.Characterization of residual oil microdistribution at pore scale using computerized tomography[J].Acta Petrolei Sinica,2014,35(2):319-325.
[20] 刘乐乐,鲁晓兵,张旭辉.天然气水合物分解区演化数值分析[J].石油学报,2014,35(5):941-951.
LIU Lele,LU Xiaobing,ZHANG Xuhui.Numerical analysis on evolution of natural gas hydrate decomposition region in hydrate-bearing sediment[J].Acta Petrolei Sinica,2014,35(5):941-951.
[21] AUSTAD T,REZAEIDOUST A,PUNTERVOLD T.Chemical mechanism of low salinity water flooding in sandstone reservoirs[R].SPE 129767,2010.
[22] LAGER A,WEBB K J,BLACK C,et al.Low salinity oil recovery-an experimental investigation[J].Petrophysics,2008,49(1):28-35.
[23] NASRALLA R A,BATAWEEL M A,NASR-El-DIN H A.Investigation of wettability alteration by low salinity water[R].SPE 146322,2011.
[24] ANDERSON W.Wettability literature survey-part 2:wettability measurement[J].Journal of Petroleum Technology,1986, 38(11):1246-1262.
[25] SPEIGHT J G.The chemistry and technology of petroleum[M].5th ed.Boca Raton:CRC Press,2014.
[26] 韩晓昱,马波,凌凤香,等.原油中含氮化合物的分离富集及鉴定方法[J].石油与天然气化工,2006,35(2):145-148.
HAN Xiaoyu,MA Bo,LING Fengxiang,et al.Advances in separation and quantification of nitrogen-containing compounds in crude oil[J].Chemical Engineering of Oil & Gas,2006,35(2):145-148.
[27] MADSEN L,IDA L.Adsorption of carboxylic acids on reservoir minerals from organic and aqueous phase[J].SPE Reservoir Evaluation & Engineering,1998,1(1):47-51.
[28] YANG Jie,DONG Zhaoxia,DONG Mingzhe,et al.Wettability alteration during low-salinity waterflooding and the relevance of divalent ions in this process[J].Energy & Fuels,2016,30(1):72-79.
[29] KUNDU S,LANGEVIN D.Fatty acid monolayer dissociation and collapse:effect of pH and cations[J].Colloids and Surfaces A:Physicochemical and Engineering Aspects,2008,325(1/2):81-85.
[30] ANDONOVSKI B S,STOJKOVIC' G M.UV study of indole and 3-acetylindole in phosphoric and hydrochloric acid solutions[J].Acta Chimica Slovenica,2000,47(3):349-362.
[31] SINGLA R,ASHOKKUMAR M,GRIESER F.The mechanism of the sonochemical degradation of benzoic acid in aqueous solutions[J].Research on Chemical Intermediates,2004,30(7/8):723-733. |