Page 21 - 201810
P. 21

第 10 期                     潘   一,等:  耐温表面活性剂在油藏开发中的研究进展                                 ·1629·


                 Property of  hydroxyl sulfobetaine surfactant appropriate for  high-   [22]  Kamal M S. A review of Gemini surfactants: potential application in
                 temperature and high-salinity reservoir[J]. Oilfield Chemistry (油田  enhanced oil recovery[J]. Journal of Surfactants and  Detergents,
                 化学), 2013, 30(4): 562-564.                        2016, 19(2): 223-236.
            [7]   Sun Tongcheng (孙同成), Cui Ya (崔亚). Research progress of deep   [23]  Chen Wenjie (陈文杰), Shao Bo (邵波), Liu Yong (刘勇), et al. The
                 Profile control and oil displacement agents for high temperature and   application of Gemini surfactant in the development of oil and gas
                 high salinity reservoirs[J]. Synthetic Materials Aging and Application   fields[J].  Journal of Yangtze  University(长江大学学报), 2016,
                 (合成材料老化与应用), 2016, 45(2): 99-105.                 13(34): 66-70.
            [8]   Wang Peng (王鹏). Study on chemical flooding agent for high   [24]  Gao Dapeng (高大鹏), Gao Jingbin (高景滨). Study of rheology of
                 temperature and high salinity reservoir[J]. Shandong Industrial   anionic Gemini surfactant solution at high temperature[J]. Advances
                 Technology (山东工业技术), 2016, 19: 4.                 in Fine Petrochemicals (精细石油化工进展), 2012, 13(5): 37-39.
            [9]   Tang Hongjiao (唐红娇), Hou Jirui (侯吉瑞), Zhao Fenglan (赵凤  [25]  Salehi M, Johnson S J, Liang J T. Enhanced wettability alteration by
                 兰),  et al. Application progress of  nonionic and anionic-nonionic   surfactants with  multiple hydrophilic  moieties[J]. Journal of
                 surfactants used in oil field[J]. Oilfield Chemistry(油田化学), 2011,   Surfactants and Detergents, 2010, 13(3): 243-246.
                 28(1): 115-117.                               [26]  Shen Zhiqin (沈之芹), Li Yingcheng (李应成), Sha Ou (沙鸥), et al.
            [10] Yang Wenxin (杨文新), Sha Ou (沙鸥), He Jianhua (何建华), et al.   Synthesis and properties of nonionic-anionic Gemini surfactants with
                 Application  of temperature resistant and salt  tolerant anionic-   high activity[J]. Advances in Fine Petrochemicals (精细石油化工进
                 nonionic surfactants[J]. Oilfield Chemistry(油田化学), 2013, 30(3):   展), 2011, 12(9): 25-28.
                 416-419.                                      [27]  Su Xin (苏鑫), Wang Biqing (王碧清), Li Junxiu (李俊秀), et al. The
            [11]  Chen Xin (陈欣), Zhou Ming (周明), Xia Liangliang (夏亮亮), et al.   effects of high temperature and high salinity on surface activity of
                 Properties  of two  kinds of anionic-nonionic surfactants used in oil   cationic Gemini  surfactant[J]. Inner Mongolia Petrochemical
                 field[J]. Oilfield Chemistry(油田化学), 2016, 33(1): 103-106.     Industry (内蒙古石油化工), 2011, (7): 1-3.
            [12]  Zhao Jianhui ( 赵健 慧 ). Synthesis, performance  evaluation of   [28]  Hussain S M S, Kamal M S, Sultan A S. Amido-amine-based cationic
                 temperature-resistant and salinity-tolerant surfactant and its   Gemini surfactants: thermal  and interfacial properties and
                 construction of oil flooding system[D]. Qingdao: China University of   interactions with cationic polyacrylamide[J]. Journal of  Surfactants
                 Petroleum (East China) (中国石油大学), 2015.            and Detergents, 2017, 20(1): 47-55.
            [13]  Behr A M, Tucker C J, Daugs E D. Performance of new   [29]  Wu Junwen (武俊文), Xiong Chunming (熊春明), Lei Qun (雷群),
                 biodegradable di-sulfonate surfactants as hydrotropes in high-   et al. Application of Gemini surfactant in preparing foaming drainage
                 temperature and salinity environments[J]. Journal of Surfactants and   agent with resistance to high temperature and high salinity[J]. Oil Drilling
                 Detergents, 2015, 18(2): 329-338.                 & Production Technology (石油钻采工艺), 2016, 38(2): 256-259.
            [14]  Song Chenglong (宋成龙). Synthesis and performance research of   [30]  Fodor C, Kali G, Iván B. Poly (N-vinylimidazole)-1-po-ly
                 nonylphenol betaine type amphoteric surfactant[D]. Daqing: Northeast   (tetrahydrofuran)  amphiphilic conetworks and  gels: Synthesis
                 Petroleum University (东北石油大学), 2015.              characterization thermal and swelling behavior[J]. American
            [15]  Guo Shufeng, Wang Hongyan, Shi Jing,  et al. Synthesis and   Chemical Society, 2011, 44(11): 4496-4502.
                 properties of a novel alkyl-hydroxyl-sulfobetaine zwitterionic surfactant   [31]  Li Fan (李凡), Luo Yue (罗跃), Su Gaoshen (苏高申),  et al.
                 for enhanced oil recovery[J]. Journal  of  Petroleum  Exploration  and   Experimental study on temperature and oil resistant fluorine-
                 Production Technology, 2015, 59(3): 321-326.      containing foaming agents for CO 2 flooding[J].Speciality
            [16]  Xing Xinxin (邢欣欣). Synthesis and  properties  of zwitterionic   Petrochemicals (精细石油化工), 2016, 33(2): 44-49.
                 surfactants applicable for use in poor oil reservoir[D]. Daqing:   [32]  Zhou Jiehua ( 周杰 华 ). Synthesis and performance of novel
                 Northeast Petroleum University (东北石油大学), 2013.     perfluoropolyether derivatived fluorocarbon surfactants[D].  Shanghai:
            [17] Zhao Ji (赵冀), Fang Jichao (方吉超), Zhou Daiyu (周代余), et al.   Donghua University (东华大学), 2013.
                 Surfactant flooding in Tazhong 402CⅢ  high-temperature and high-   [33]  Kamal M S, Sultan A S, Al-Mubaiyedh U A,  et al. Evaluation of
                 salinity reservoir[J]. Oilfield Chemistry (油田化学), 2014, 31(3):   rheological and thermal properties of a new fluorocarbon
                 405-409.                                          surfactant-polymer system for EOR applications in high-temperature
            [18] Zhao Guozhu (赵国柱), Jin Rengao (金仁高), Li Shengtao (李圣涛),   and high-salinity oil reservoirs[J]. Journal of Surfactants and
                 et al. Performance and application of betaine type surfactant TCJ-5 in   Detergents, 2014, 17: 985-993.
                 high temperature and high salinity reservoir[J]. Journal of Northeast   [34]  Wang Qiwei (王其伟). Present situation and development prospect of
                 Petroleum University (东北石油大学学报), 2015, 39(3): 111-116.   foam flooding[J]. Oil Drilling & Production Technology (石油钻采
            [19]  Meng Qingyang (孟庆阳), Chen Jie (陈捷), Zhao Tianjing (赵甜静),   工艺), 2013, 35(2): 94-97.
                 et al. Interfacial tension and foaming properties of APG and LC   [35] Zhang  Wenke(张文柯). Progress of research on surfactant oil
                 aqueous solutions with high salinity in high temperature[J]. Journal   displacement systems[J]. Guangdong Chemical Industry (广东化工),
                 of Shanghai University (上海大学学报), 2013, 19(4): 437-439.     2013, 40(4): 166-169.
            [20]  Gao Jinhao (高进浩), Shen Yiding (沈一丁), Wang Lei (王磊), et al.   [36]  Kamal M S,  Hussien I A, Sultan A S,  et al.  Rheological study on
                 Development  and performance of temperature tolerance surfactant   ATBS-AM  copolymer-surfactant system in high-temperature and
                 GY-9[J]. Modern  Chemical Industry (现代化工), 2015, 35(10):   high-salinity environment[J]. Journal of Chemistry, 2013: 801570.
                 91-94.                                        [37]  Dong Z, Zheng Y, Zhao J. Synthesis, physico-chemical  properties
            [21]  Kamal M S,  Hussain S M S, Sultan A S.  Development of novel   and enhanced oil recovery flooding evaluation of novel zwitterionic
                 amidosulfobetaine surfactant-polymer systems for EOR applications   Gemini surfactants[J]. Journal of Surfactants and Detergents, 2014,
                 [J]. Journal of Surfactants and Detergents, 2016, 19: 989-997.     17(6): 1213-1222.
   16   17   18   19   20   21   22   23   24   25   26