本文从将两种有效添加剂混合添加的角度,来研究其对溴化锂水溶液吸收水蒸气的影响.采用静态池吸收实验测试溶液吸收水蒸气的效果.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.采用吊板法测量溶液的表面张力.通过对添加以上混合添加剂后的溴化锂水溶液的表面张力的测试表明,混合添加后溶液的表面张力与其中较大程度降低溶液表面张力的添加剂单独添加后的表面张力接近.
参考文献
| [1] | Kashiwagi T;Kurosaki Y;Shishido H .Enhancement of Vapor Absorption into a Solution Using the Marangoni Effect[J].Trans JSME,1985,B51:1002-1009. |
| [2] | Hozawa 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(02):209-214. |
| [3] | Hihara E;Saito T .Effect of Surfactant on Falling Film Absorption[J].International Journal of Refrigeration,1993,16:339-346. |
| [4] | Daiguji H;Hihara E;Saito T .Mechanism of Absorption Enhancement by Surfactant[J].International Journal of Heat and Mass Transfer,1997,40(08):1743-1752. |
| [5] | Kulankara S;Verma S;Herold K.Theory of Heat/Mass Transfer Additives in Absorption Chillers[A].Nashville,TN,1999:1-8. |
| [6] | Z. Yuan;K. E. Herold .Surface tension of pure water and aqueous lithium bromide with 2-ethyl-hexanol[J].Applied thermal engineering: Design, processes, equipment, economics,2001(8):881-897. |
| [7] | S. Kulankara;K. E. Herold .Surface tension of aqueous lithium bromide with heat/mass transfer enhancement additives: the effect of additive vapor transport[J].International Journal of Refrigeration,2002(3):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].化学物理学报,2004(02):179-185. |
| [9] | 高洪涛,飛原英治.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(03):5-8. |
| [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(02):29-33. |
| [11] | 高洪涛,飞原英治.气相界面活性剂对溴化锂水溶液吸收水蒸气的影响[J].工程热物理学报,2005(03):391-393. |
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