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界面活性剂的混合添加对溴化锂溶液吸收水蒸气的影响 被引量:8

Effect of Compound Surfactants on Water Vapor Absorption of Aqueous LiBr Solution
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摘要 在静态池吸收实验中将两种有效添加剂混合添加,测试其对溴化锂水溶液吸收水蒸气的影响,从而探寻不同界面活性剂之间的促进或者抑制作用。通过对正辛醇、仲辛醇、异辛醇、正己醇四种物质采用单种添加和两种混合添加的测试实验表明,混合添加后的效果与其中较好的添加剂单独添加的效果接近,例如,正辛醇在四种添加剂中效果最好,其它添加剂与正辛醇混合添加的效果都与正辛醇单独添加时的效果相近。 Compound surfactants were added to aqueous LiBr solution in static pool setup to study their effect on water vapor absorption of aqueous LiBr solution. 1- Octanol, 2- Octanol, 2- Ethyl- 1 - hexanol, and 1 - Hexanol were added to 60w LiBr solution individually and in the mixture form of two surfactants. The experimental result shows that the effect of compound surfactants is near to the better one between them,for example, 1 - Octanol is the best one during these four additives, the effect of any other additive mixed with 1 - Octanol is near to the effect of 1 - Octanol alone.
作者 高洪涛 李豪
机构地区 大连海事大学制冷与低温工程研究所
出处 《制冷学报》 CAS CSCD 北大核心 2007年第3期11-14,共4页 Journal of Refrigeration
基金 国家自然科学基金资助项目(50476038)
关键词 工程热物理 吸收量 静态池 界面活性剂 溴化锂水溶液 Engineering thermophysics Absorption mass Stagnant pool absorber Surfactant Aqueous LiBr solution
分类号 TQ116.2 [化学工程—无机化工]
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参考文献11

  • 1Kashiwagi T, Kurosaki Y, Shishido H. Enhancement of vapor absorption into a solution using the Marangoni effect [J]. Trans JSME, 1985,1351 : 1002 - 09.
  • 2Hozawa M, Inoue M, Sao J, et al. Marangoni convection during steam absorption into aqueous LiBr solution with surfactant[J]. J Chemical Engineering of Japan, 1991,24 (2) :209 - 14.
  • 3Hihara E, Saito T. Effect of sttrfactant on falling fdm absorption[J]. Int J Refrig, 1993,16:339- 46.
  • 4Daiguji H, Hihara E, Saito T. Mechanism of absorption enhancement by surfaetant[J]. Int J Heat Mass Transfer , 1997,40(8) : 1743 - 52.
  • 5Kulankara S, Verma S, Herold K, et al. Theory of heat/mass transfer additives in absorption chillers [ C ] // Proceedings of IMECE: Intemation al Mechanical Engineering Conference and Exhibit. Nashville TN, November 1999.
  • 6Yuan Z, Herold K, et al. Surface tension of pure water and aqueous lithium bromide with 2- ethyl- hexanol [ J ]. Applied Thermal Engineering, 2001,21 : 881 - 97.
  • 7Kulankara S, Herold K, et al. Surface tension of aqueous lithium bromide with heat/mass transfer enhancement additives: the effect of additive vapor transport [J]. Int J Refrig,2002,25: 383 - 389.
  • 8程文龙,陈则韶.添加剂对LiBr溶液吸收蒸汽过程中的强化机理[J].Chinese Journal of Chemical Physics,2004,17(2):179-185. 被引量:14
  • 9高洪涛,飞原英治.含有促进传热传质添加剂的溴化锂水溶液的表面张力[J].制冷学报,2004,25(3):5-8. 被引量:9
  • 10高洪涛,原英治.界面活性剂对溴化锂吸收水蒸气的影响[J].制冷学报,2005,26(2):29-33. 被引量:4

二级参考文献37

  • 1[1]Ziegler F, Grossman G. Review Paper-Heat-transfer enhancement by additives. Int J Refrig, 1996, 19:301-309
  • 2[2]Kashiwagi T, Kurosaki Y, Shishido, H. Enhancement of vapor absorption into a solution using the Marangoni effect. Trans JSME(1985), B51: 1002-1009
  • 3[3]Hozawa M, Inoue M, Sao J, Tsukada T. Marangoni convection during steam absorption into aqueous LiBr solution with surfactant. J Chemical Engineering of Japan 1991, 24(2):209-214
  • 4[4]Kulankara S, Verma S, Herold K E. Theory of heat/mass transfer additives in absorption chillers. Proceedings of IMECE: International Mechanical Engineering Conference and Exhibit. November 1999, Nashville TN
  • 5[5]Yuan Z, Herold K E. Surface tension of pure water and aqueous lithium bromide with 2-ethyl-hexanol. Applied Thermal Engineering, 2001, 21:881-897
  • 6[6]Kulankara S, Herold K E. Surface tension of aqueous lithium bromide with heat/mass transfer enhancement additives: the effect of additive vapor transport. Int J Refrig, 2002, 25:383-389
  • 7[7]Hihara E, Saito T. Effect of surfactant on falling film absorption. Int J Refrig 1993, 16:339-346
  • 8[8]Nordgren M, Setterwall F. An experimental study of the effects of surfactant on a falling liquid film. Int J Refrig, 1996, 19:310-316
  • 9[9]M?ller R, Knoche K F. Surfactants with NH3-H2O. Int J Refrig, 1996, 19:317-321
  • 10[10]Kim K J, Berman N S, Wood B D. The interfacial turbulence in falling film absorption: effects of additives. Int J Refrig, 1996, 19:322-330

共引文献27

同被引文献106

引证文献8

二级引证文献10

制冷学报
2007年 第3期

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