[1] 张凤久,姜伟,孙福街,等.海上稠油聚合物驱关键技术研究与矿场试验[J].中国工程科学,2011,13(5):28-33. ZHANG Fengjiu,JIANG Wei,SUN Fujie,et al.Key technology research and field test of offshore viscous polymer flooding[J].Strategic Study of CAE,2011,13(5):28-33. [2] 张贤松,孙福街,侯健,等.海上稠油聚合物驱开发指标定量表征[J].石油学报,2013,34(4):727-732. ZHANG Xiansong,SUN Fujie,HOU Jian,et al.Quantitative characterization of production indices for polymer flooding of offshore heavy oils[J].Acta Petrolei Sinica,2013,34(4):727-732. [3] 张维易,王锦林,于晓涛,等.渤海S油田聚合物驱受效井合理井底压力分析[J].特种油气藏,2018,25(1):104-107. ZHANG Weiyi,WANG Jinlin,YU Xiaotao,et al.Reasonable bottom-hole pressure analysis of polymer flooding response wells in Bohai S Oilfield[J].Special Oil & Gas Reservoirs,2018,25(1):104-107. [4] 谢晓庆,康晓东,张贤松,等.海上稠油油田化学驱潜力评价方法及其应用[J].中国海上油气,2016,28(1):69-74. XIE Xiaoqing,KANG Xiaodong,ZHANG Xiansong,et al.Chemical flooding potential evaluation method in offshore heavy oilfields and its application[J].China Offshore Oil and Gas,2016,28(1):69-74. [5] 刘新光,田冀,李娜,等.海上稠油热采开发经济界限研究[J].特种油气藏,2016,23(3):106-109. LIU Xinguang,TIAN Ji,LI Na,et al.Economic limits of thermal recovery in offshore heavy-oil reservoir[J].Special Oil & Gas Reservoirs,2016,23(3):106-109. [6] 邓景夫,李云鹏,吴晓慧,等.海上稠油油田早期聚合物驱见效规律[J].特种油气藏,2015,22(3):128-130. DENG Jingfu,LI Yunpeng,WU Xiaohui,et al.Early polymer flooding response performances in offshore heavy oil oilfield[J].Special Oil & Gas Reservoirs,2015,22(3):128-130. [7] 赵娟,张健,杨光,等.两亲聚合物稠油活化剂的降黏效果及驱油性能研究[J].油田化学,2016,33(4):715-719,731. ZHAO Juan,ZHANG Jian,YANG Guang,et al.Oil displacement performance and viscosity-reducing effect of heavy oil activator with amphiphilic polymer[J]. Oilfield Chemistry,2016,33(4):715-719,731. [8] 杨光,张凤英,康晓东,等.多孔介质中两亲聚合物驱稠油渗流规律实验研究[J].中国海上油气,2016,28(5):61-65. YANG Guang,ZHANG Fengying,KANG Xiaodong,et al.Experimental study of heavy oil percolation in porous medium by amphiphilic polymer flooding[J].China Offshore Oil and Gas,2016,28(5):61-65. [9] 张健,华朝,朱玥珺,等.高分子质量活化剂性能及其对稠油的拆解降黏与解吸附作用[J].中国海上油气,2018,30(4):93-101. ZHANG Jian,HUA Zhao,ZHU Yuejun,et al.Properties of activator with high molecular weight and its effect on viscosity reduction and desorption of heavy oil[J].China Offshore Oil and Gas,2018,30(4):93-101. [10] 徐晓慧,张健,杨光,等.稠油活化剂的开发利用[J].石油科技论坛,2014,33(3):16-19,27. XU Xiaohui,ZHANG Jian,YANG Guang,et al.Development and application of heavy oil activating agent[J].Oil Forum,2014,33(3):16-19,27. [11] 徐晓慧,张健,崔盈贤,等.两亲聚合物ICJN对原油的乳化与降黏作用研究[J].油田化学,2016,33(3):456-461. XU Xiaohui,ZHANG Jian,CUI Yingxian,et al.Emulsifying and viscosity reducing capacity of amphiphilic polymer for crude oil recovery[J].Oilfield Chemistry,2016,33(3):456-461. [12] CHAVEZ-MIYAUCHI T E,ZAMUDIO-RIVERA L S,BARBA-LOPEZ V.Aromatic polyisobutylene succinimides as viscosity reducers with asphaltene dispersion capability for heavy and extra-heavy crude oils[J].Energy & Fuels,2013,27(4):1994-2001. [13] YEN T F,EEDMAN J G,POLLACK S S.Investigation of the structure of petroleum asphaltenes by X-ray diffraction[J].Analytical Chemistry,1961,33(11):1587-1594. [14] ANDREATTA G,GONCALVES C C,BUFFIN G,et al.Nanoaggregates and structure-function relations in asphaltenes[J].Energy & Fuels,2005,19(4):1282-1289. [15] WANG H J,XU H Y,JIA W H,et al.Revealing the intermolecular interactions of asphaltene dimers by quantum chemical calculations[J].Energy & Fuels,2017,31(3):2488-2495. [16] 张文,龙军,任强,等.沥青质分子聚集行为研究进展[J].化工进展,2019,38(5):2158-2163. ZHANG Wen,LONG Jun,REN Qiang,et al.Research progress on aggregation behavior of asphaltene[J].Chemical Industry and Engineering Progress,2019,38(5):2158-2163. [17] MOSTOWFI F,INDO K,MULLINS O C,et al.Asphaltene nanoaggregates studied by centrifugation[J].Energy & Fuels,2009,23(3):1194-1200. [18] BETANCOURT S,VENTURA G T,POMERANTZ A E,et al.Nan- oaggregates of asphaltenes in a reservoir crude oil and reservoir connectivity[J].Energy & Fuels,2009,23(3):1178-1188. |