Page 221 - 《精细化工》2022年第2期

P. 221

第 2 期郑苗，等: 吉木萨尔页岩油乳化原因及对策 ·425·

Production Technology (钻采工艺), 2011, 34(6): 74-78. China University of Petroleum (Beijing)〔中国石油大学(北京) 〕,
[7] ZHANG H Y (张海燕), SUN X W (孙学文), ZHAO S Q (赵锁奇), 2003.
et al. Effects of various components of crude oil on the stability of [17] GUO J X (郭继香), WU Z L (吴肇亮), LI M Y (李明远), et al.
oil-water emulsion[J]. Oilfield Chemistry (油田化学), 2009, 26(3): Effect of interfacial shear viscosity on stability of crude oil
344-350. emulsion[J]. Fine Chemicals (精细化工), 2003, 20(11): 660-662.
[8] ZOU Y L (邹永莉), ZHENG D (郑达), YANG L (杨林), et al. [18] KILPATRICK P K. Water-in-crude oil emulsion stabilization:
Experimental study on stability of polymer containing crude oil Review and unanswered questions[J]. Energy & Fuels. 2012, 26(7):
emulsion[J]. Laboratory Science (实验室科学), 2015, 18(6): 14-16. 4017-4026.
[9] LI M Y (李明远). Study on stability of crude oil emulsion Ⅲ. [19] GUO J X (郭继香), LI M Y (李明远), LIN M Q (林梅钦), et al.
Characteristics of interfacial active components of North Sea crude Separation and characterization of interfacial active components of
oil[J]. Oilfield Chemistry (油田化学), 1997, 14(3): 42-47. different crude oils[J]. Fine Chemicals (精细化工), 2007, 24(5):
[10] GUO J X (郭继香), LIU Q (刘青), LIN M Q (林梅钦), et al. 457-461.
Determination of interfacial tension of components in Gudong crude [20] LIU Y G (刘义刚), XIE L B (谢良波), ZHAO P (赵鹏), et al.
oil[J]. Fine Chemicals (精细化工), 2003, 20(10): 601-604. Stability analysis of oil/water interfacial film produced by polymer
[11] ZHANG X D (张晓丹), ZHENG Y C (郑延成), XIE J D (谢军德), flooding in Bohai oilfield[J]. Oilfield Chemistry (油田化学), 2020,
et al. Screening and performance evaluation of anti milk drainage 37(1): 144-149.
aids[J]. Chemical Engineering of Oil & Gas (石油与天然气化工), [21] LI M Y (李明远), ZHEN P (甄鹏), WU Z L (吴肇亮), et al. Study
2009, 38(4): 327-330. on stability of crude oil emulsion Ⅵ. Characteristics of interfacial
[12] LYU Y N (吕雅楠). Study on treatment technology of produced fluid film and stability of crude oil emulsions[J]. Acta Petrolei Sinica
containing fracturing fluid[D]. Daqing: Northeast Petroleum (Petroleum Processing Section) 〔石油学报(石油加工) 〕, 1998,
University (东北石油大学), 2017. 19(3): 4-8.
[13] QU X F (曲险峰), SHAN Z Y (单志媛), ZONG H (宗华), et al. [22] ALVARADO V, WANG X, MORADI M. Role of acid components
Effect of polymer on stability of crude oil emulsion[J]. Applied and asphaltenes in Wyoming water-in-crude oil emulsions[J]. Energy
Chemical Industry (应用化工), 2012, 41(7): 1176-1178. & Fuels, 2011, 25(10): 4606-4613.
[14] XU M J (徐明进), LI M Y (李明远), PENG B (彭勃), et al. Effect of [23] CHEN G L, TAO D. An experimental study of stability of oil-water
structure of active components on oil-water interface properties of emulsion[J]. Fuel Processing Technology, 2005, 86(5): 499-508.
Saudi crude oil[J]. Fine Chemicals ( 精细化工 ), 2007, 24(5): [24] GUO R (郭睿), MA L J (马丽娟), YAN Y M (闫育萌), et al. The
462-465. synthesis of binary polymers and their application in thick oil W/O
[15] ZHANG W Y (张婉莹), LI X L (李小玲), WU Y G (吴玉国). Effect emulsions[J]. Fine Chemicals (精细化工), 2021, 38(5): 1053-1060.
of emulsification conditions on viscosity and stability of viscous [25] ZHANG N (张娜), ZHAO S Q (赵锁奇), SHI Q (史权), et al.
crude oil emulsion[J]. Applied Chemical Industry (应用化工), 2021, Analysis of heteroatom compounds in viscosity reduction reaction of
50(3): 660-664. Venezuela ori Chang slag by high resolution mass spectrometry[J].
[16] LIU Q (刘青). Characteristics of interfacial active components of Journal of Fuel Chemistry and Technology (燃料化学学报), 2011,
Gudong crude oil and its effect on emulsion stability[D]. Beijing: 39(1): 37-41.

（上接第 357 页） characterization of hesperetin nanosuspensions for dermal delivery[J].
[7] YANG T Z (杨通在), LUO S Z (罗顺忠), XU Y S (许云书). International Journal of Pharmaceutics, 2009, 371(1/2): 182-189.
Characterization of pore structure based on N 2 adsorption applied to [17] WANG C (王成), SONG Y (宋妍), CHENG D Q (成道泉), et al.
porous materials[J]. Carbon (炭素), 2006, (1): 17-22. Reason analysis of pH increase of emamectin benzoate EC and the
[8] DU B Y (杜碧莹), TANG Y (唐渝), YANG J (杨骏), et al. Surface preliminary study on quality of its active ingredient[J]. World Pesticide
tension and emulsifiability of aqueous equimolar CTAB-SDS (世界农药), 2020, 42(7): 69-73.
mixture at different temperatures[J]. Fine Chemicals (精细化工), [18] COLOMBO M, ORTHMANN S, BELLINI M, et al. Influence of
2006, 23(1): 25-27. drug brittleness, nanomilling time, and freeze-drying on the
[9] LOU D M (楼迪民), FANG R E (方荣恩). Research on the crystallinity of poorly water-soluble drugs and its implications for
improvement of the performance of sodium dodecyl benzene solubility enhancement[J]. AAPS PharmSciTech, 2017, 18(7): 2437-
sulfonate[J]. Fine Chemicals (精细化工), 1990, 7(5): 71-74. 2445.
[10] ZHANG P J (张鹏九), GAO Y (高越), LIU Z F (刘中芳). [19] LEUNER C, DRESSMAN J. Improving drug solubility for oral
Application of triangular diagram method in the optimization of delivery using solid dispersions[J]. European Journal of Pharmaceutics
nano-emulsion formula of beta-cyfluthrin[J]. Agrochemicals (农药), and Biopharmaceutics, 2000, 50(1): 47-60.
2017, 56(3): 180-184. [20] LIU Y Q (刘永琼), ZHANG H (张珩), ZHANG J M (张建民), et al.
[11] SILVA H D, CERQUEIRA M Â, VICENTE A A, et al. Nanoemulsions Study on the angle of contact and the wetting of salicylic acdi in the
for food applications: Development and characterization[J]. Food and measuring solution methanol-water system[J]. Journal of Wuhan
Bioprocess Technology, 2012, 5(3): 854-867. Intitute of Chemical Technology (武汉化工学院学报), 1993, (4):
[12] CHE W N (车午男), LI X Y (李新宇), LI X W (李修伟), et al. 13-17.
Research progress on resistance mechanism of emamectin benzoate[J]. [21] CUI Y T (崔迎涛), WANG S (王顺), LI W (李伟), et al. Research
Agrochemicals (农药), 2018, 57(8): 551-554. progress in droplet deposition on superhydrophobic plant leaves[J].
[13] WANG H Y (王慧云), CUI Y N (崔亚男), ZHANG C Y (张春燕). Chemical Journal of Chinese Universities (高等学校化学学报),
Influence favtors on the Zeta potential of colloid particle[J]. China 2021, 42(4): 1061-1073.
Medical Herald (中国医学导报), 2010, 7(20): 28-30. [22] IVANOVA N, STAROV V, RUBIO R, et al. Critical wetting
[14] ZHAO J (赵静), LI B (李波), JIANG G (蒋刚). Influence of pH concentrations of trisiloxane surfactants[J]. Colloids and Surfaces A:
values on the Zeta potential and preparation of silicon oil/water Physicochemical and Engineering Aspects, 2010, 354(1/2/3): 143-
emulsion[J]. Chemical Research and Application (化学研究与应用), 148.
2005, 17(3): 386-388. [23] ZHENG L, CAO C, CAO L D, et al. Bounce behavior and regulation
[15] MITRI K, SHEGOKAR R, GOHLA S, et al. Lutein nanocrystals as of pesticide solution droplets on rice leaf surfaces[J]. Journal of
antioxidant formulation for oral and dermal delivery[J]. International Agricultural and Food Chemistry, 2018, 66(44): 11560-11568.
Journal of Pharmaceutics, 2011, 420(1): 141-146. [24] HOLLOWAY P J. Surface factors affecting the wetting of leaves[J].
[16] MISHRA P R, SHAAL L A, MULLER R H, et al. Production and Pesticide Science, 1970, 1(4): 156-163.

216 217 218 219 220 221 222 223 224 225 226