本文利用自组装技术制备了铜基十八烷基硫醇疏水表面(SAM),通过红外热像仪分析了低压条件下液滴表面和换热表面的温度分布以及液滴脱落引起的温度分布演变。实验结果表明:低压蒸汽冷凝条件下,冷凝表面局部温度分布不均匀;单个液滴表面温度呈中心高边缘低的凸型分布;随着液滴半径的增加,液滴表面温度升高;相同操作压力下,随着过冷度的增加,液滴表面温度降低。在液滴脱落过程中,液滴表面温度逐渐升高,同时裸露出的换热表面局部过冷度增大,局部表面温度呈现出中心低周围高的凹型温度分布,随之恢复到液滴脱落前的温度。随着蒸汽压力降低,冷凝临界过冷度增加,导致裸露表面上具有更低温度的中心区域核化点密度高,最终加剧了整个换热表面液滴尺寸分布的非均匀程度。
Self-assembled monolayers (SAMs) of 1-octadecanethiol [CHa(CH2)lTSHI were applied to promote dropwise condensation on copper substrate. At low pressure, the temperature distribution of droplet surface and the temperature variation of condensation surface during droplet falling off were measured using ThermoVisionA40. Major conclusions drawn in this study are as follows: The temperature distribution on the condensing surface is nonuniform while the temperature distribution of droplet surface is convex. The temperature of droplet surface is higher for larger condensate droplet. However, the temperature of droplet surface decreases with an increase in subcooling at given vapor pressure. The temperature of droplet surface rises gradually due to the falling behavior of the droplet. Consequently the temperature of the renewed location decreases with the surface subcooling increasing and then rises back. As the vapor pressure decreases, an increase in the critical surface subcooling for condensation results in a higher activated nucleation site density in the center of the renewed location where the temperature is lower and eventually lead to the nonuniformity of the temperature distribution.
参考文献
| [1] | 邓朝霞,叶代勇,傅和清,黄洪,陈焕钦.分子蒸馏及其在精细化工上的应用[J].广州化工,2006(02):6-9. |
| [2] | Xuehu Ma;Jiabin Chen;Songping Li;Qingyun Sha;Aiming Liang;Wei Li;Jiayan Zhang;Guojun Zheng;Zhihao Feng .Application of absorption heat transformer to recover waste heat from a synthetic rubber plant[J].Applied thermal engineering: Design, processes, equipment, economics,2003(7):797-806. |
| [3] | Bansal, GD;Khandekar, S;Muralidhar, K .Measurement of Heat Transfer During Drop-Wise Condensation of Water on Polyethylene[J].Nanoscale and microscale thermophysical engineering,2009(3):184-201. |
| [4] | Girard, F;Antoni, M;Sefiane, K .Infrared Thermography Investigation of an Evaporating Sessile Water Droplet on Heated Substrates[J].Langmuir: The ACS Journal of Surfaces and Colloids,2010(7):4576-4580. |
| [5] | Ganzevles FLA.;van der Geld CWM. .The effect of the angle of inclination of a condenser on the gas-to-plate heat resistance in dropwise condensation[J].Experimental Thermal and Fluid Science: International Journal of Experimental Heat Transfer, Thermodynamics, and Fluid Mechanics,2004(2/3):237-241. |
| [6] | Lan Zhong;Ma Xuehu;Wang Sifang .Effects of surface free energy and nanostructures on dropwise condensation[J].Chemical engineering journal,2010(3):546-552. |
| [7] | ZHONG LAN;XUEHU MA;XINGDONG ZHOU;MINGZHE WANG .Theoretical Study Of Dropwise Condensationheat Transfer: Effect Of The Liquid-solid surface Free Energy Difference[J].Journal of enhanced heat transfer: Theory and application in high performance heat and mass transfer,2009(1):61-71. |
| [8] | 马学虎,兰忠,王爱丽,汪明哲,王四芳,张崇峰,白涛.低压蒸汽滴状冷凝传热性能的实验研究[J].工程热物理学报,2010(03):483-486. |
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