Page 90 - 201906

P. 90

·1096· 精细化工 FINE CHEMICALS 第 36 卷

（1）以单一有机物为油相，盐的质量分数为 microemulsion systems including nonionic surfactant mixtures[J].
Langmuir, 1995, 11(9): 3302-3306.
1.0~6.0%时，OTAC 和 CTAB 的微乳体系表现出类
[15] Yang Xiaodeng, GaoYanhong, Chai Jinling, et al. Studies on the
似的规律：随着盐含量的增加，A*单调下降，SP* middle-phase microemulsion of lauric-N-methylglucamide[J].
Colloid J, 2007, 69(2): 252-258.
单调上升；随着表面活性剂含量的增加，A*持续增
[16] Alexandridis P, Olsson U, Lindman B. Structural polymorphism of
大，SP*先增大后减小。 amphiphiliccopolymers: Six lyotropicliquid crystalline and two
（2）在多组分油相的实验中，两种表面活性剂 solution phases in a poly(oxybutylene)-b-poly(oxyethylene)−water−
xylene system[J]. Langmuir, 1997, 13(1): 23-34.
所形成微乳体系的 A*和 SP*与有机混合物的 EACN [17] Liu Huie, Zhang Xiaokun, Ding Chuanqin, et al. Phase behavior of
值之间的关系均与所用的混合物种类无关，根据求 sodium dodecyl sulfate-n-butanol-kerosene-water microemulsion
system[J]. Chinese Journal of Chemical Engineering, 2014, 22(6):
得的函数关系式可知，在本实验范围内，随着 EACN 699-705.
值增大，微乳体系的最佳醇用量逐渐增大，增溶能 [18] Yang Ying (袁迎), Liu Huie (刘会娥), Xu Mingming (徐明明), et al.
Effect of inorganic salts on the phase behavior of sodium dodecyl
力逐渐降低，并趋向于稳定。比较 OTAC 和 CTAB bezenesulfonatemicroemulsionsystem[J]. Petrochemical Technology
两种体系，CTAB 体系的增溶能力较低。 (石油化工), 2014, 43(11): 1277-1283.
[19] Jing Jiange (靖建歌), Liu Huie (刘会娥), Ding Chuanqin (丁传芹),
（3）将由两组分有机混合物微乳体系的 A*和 et al. Quantitative analysis of the solubilization property of
SP*与 EACN 之间的函数关系式用于预测正己烷、 cationic-anionic mixing surfactants microemulsion system [J]. Fine
Chemicals (精细化工), 2014, 31(11): 1319-1323.
正庚烷、正辛烷和正十二烷四组分有机混合物的 A* [20] Jing Jiange (靖建歌), Liu Huie (刘会娥), Ding Chuanqin (丁传芹),
和 SP*，与实验值对比发现，所得关系式用于相近 et al. Alcohol distribution and solubilization parameters of
winsorⅢmicroemulsion using internal standard method[J]. Chemical
EACN 范围的四组分烃类混合物增溶性能分析，具
Engineering (China) (化学工程), 2015, 43(1): 32-36.
有较好的预测效果。 [21] Xia Xue (夏雪), Liu Huie (刘会娥), Ding Chuanqin (丁传芹), et al.
Influence of acidity and alkalinity on sodium dodecyl sulfate-
参考文献： n-butanol-kerosene-water microemulsionsystem[J]. Petrochemical
Technology (石油化工), 2011, 40(10): 1110-1114.
[1] Schulman J H, Stoeckenius W, Prince L M. Mechanism of formation [22] Xia Xue (夏雪), Liu Huie (刘会娥), Xia Ye (夏晔), et al. Phase
and structure of microemulsions by electron microscopy[J]. J Phys inversion of sodium dodecyl sulfate (sds)/ n-butanol/kerosene/water
Chem, 1959, 63(10): 1677-1680. microemulsionsystem[J]. J ChemEng of Chinese Univ (高校化学工
[2] Monzer F. Microemulsions: properties and applications[M]. Boca 程学报), 2011, 25(6): 911-915.
Raton: CRC Press, 2009: 15-18. [23] Zhang Xiaokun (张孝坤), Liu Huie (刘会娥), Ding Chuanqin (丁传
[3] Solans C. Industrial applications of microemulsions[M]. Hironobu 芹), et al. Influence of different types of electrolyte on sodium
Kunieda. New York: CRC Press, 1996: 47-388. dodecyl sulfate/butanol/kerosene/water microemulsionsystem[J]. J
[4] Salager J L, Forgiarini A M, Bullón J. How to attain ultralow Chem Eng of Chinese Univ ( 高校化学工程学报 ), 2013(6):
interfacial tension and three-phase behavior with surfactant 1089-1093.
formulation for enhanced oil recovery: a review. Part 1. optimum [24] Zhang Qiang (张强), Wang Xiaodong (汪晓东), Jin Riguang (金日
formulation for simple surfactant–oil–water ternary systems[J]. 光). Analysis on the phase diagrams of pseudo-tricomponent of oleic
Journalof Surfactants and Detergents, 2013, 16(4): 449-472. acid/ammonia-gasoline-alcohol-water microemulsionsystem[J].
[5] Salager J L, Forgiarini A M, Márquez L, et al. How to attain an Journal of Beijing University of Chemical Technology (北京化工大
ultralow interfacial tension and a three-phase behavior with a 学学报: 自然科学版), 2001, 28(2): 37-39.
surfactant formulation for enhanced oil recovery:A review. Part 2. [25] Zhou Yawen (周雅文), Zhang Gaoyong (张高勇), Wang Hongxia
performance improvement trends from Winsor’s premise to currently ( 王红霞 ). Study on the technology of water-in-gasoline
proposed inter-and intra-molecular mixtures[J]. Journal of microemulsion [J]. China Surfactant Detergent & Cosmetics (日用化
Surfactants and Detergents, 2013, 16(5): 631-663. 学工业), 2002, 32(2): 1-4.
[6] Santanna V C, Curbelo F D S, Castro Dantas T N, et al. [26] Dong Songxiang ( 董松祥 ). Study on the preparation and
Microemulsion flooding for enhanced oil recovery[J]. Journal of performance of energy-saving and clean micro-emulsified diesel oil
Petroleum Science and Engineering, 2009, 66(3): 117-120. [D]. China University of Petroleum (East China), 2010.
[7] Ogino K, Abe M. Microemulsion formation with some typical [27] Cao Jianxi (曹建喜), Luo Liwen (罗立文), Dong Songxiang (董松
surfactants[M]. Surface and Colloid Science. 1993, 15: 85-123. 祥), et al. Preparation and properties of micro-emulsified diesel [J].
[8] Prince L M. Microemulsion, theory and practice [M]. New York: Journal of China University of Petroleum (Edition of Natural
Academic Press, 1977: 1-20. Science) (中国石油大学学报: 自然科学版), 2010, 34(4): 152-156.
[9] Robbins M. L. Micellization solubiization and microemulsion[M]. [28] Huie L, Pingping Z, Zhanghui W, et al. Solubilization behavior of
New York: Plenum Press, 1977: 1-56. organic mixtures in optimum winsor type Ⅲ microemulsion
[10] Primet M, Menorval L C D, Fraissard J, et al. Journal of the systems of sodium dodecyl sulfate[J]. Journal of Surfactants and
Chemical society, faraday transactions[J]. Journal of the Chemical Detergents, 2018, 21(4): 497-507.
Society Faraday Transactions, 1992, 93(11): 2867-2874. [29] Wu Xun (吴珣), Lu Changbo (鲁长波), Gu Xiaoyu (谷晓昱). Effects
[11] Marcus J, Touraud D, Kunz W. Formulation and stability of a soap of carbon chain length of n-alkanol on composition and properties of
microemulsion and the apparent pK A herein[J]. Journal of Colloid diesel oil microemulsion[J]. Petrochemical Technology, 2011, 40(10):
and Interface Science, 2013, 407(10): 382-389. 1068-1072.
[12] Sottmannt, Stuben Raueh C. Chapter l: Phase behaviour, inteffacial [30] Wade W H, Morgan J C, Jacobson J K, et al. Low interfacial tensions
tension and mierostrueture of microemulsiona, BLBK034- involving mixtures of surfactants[J]. Soc Pet Eng J, 1977, 17(2):
stubemuch[M]. MacMillan, 2008: 1-47. 122-128.
[13] Winsor P A. Solvent properties of amphiphilic compounds[M]. [31] Stubenrauch C. Microemulsions: background, new concepts,
London: Butterworths Scientific Publications, 1954: 12-27. applications, perspectives[M]. Chichester:John Wiley & Sons Ltd, 2009:
[14] Kunieda H, Nakano A, Pes M A. Effect of oil on the solubilization in 112-147.

85 86 87 88 89 90 91 92 93 94 95