Coupling of thermocapillary convection and evaporation effect in a liquid layer when the evaporating interface is open to air 被引量：5

Coupling of thermocapillary convection and evaporation effect in a liquid layer when the evaporating interface is open to air

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摘要 The coupling mechanism of thermocapillary convection and evaporation effect in evaporating liquids was studied experimentally. The experiments were carried out to study a thin evaporating liquid layer in a rectangular test cell when the upper surface was open to air. By altering the imposed horizontal temperature differences and heights of liquid layers, the average evaporating rate and interfacial temperature profiles were measured. The flow fields were also visualized by PIV method. For comparison, the experiments were repeated by use of another two non-evaporating liquids to study the influence of evaporation effect. The results reveal evidently the role that evaporation effect plays in the coupling with thermocapillary convection. The coupling mechanism of thermocapillary convection and evaporation effect in evaporating liquids was studied experimentally. The experiments were carried out to study a thin evaporating liquid layer in a rectangular test cell when the upper surface was open to air. By altering the imposed horizontal temperature differences and heights of liquid layers, the average evaporating rate and interfacial temperature profiles were measured. The flow fields were also visualized by PIV method. For comparison, the experiments were repeated by use of another two non-evaporating liquids to study the influence of evaporation effect. The results reveal evidently the role that evaporation effect plays in the coupling with thermocapillary convection.

作者 ZHU ZhiQiang LIU QiuSheng

机构地区 Key Laboratory of Microgravity (National Microgravity Laboratory)

出处《Chinese Science Bulletin》 SCIE EI CAS 2010年第3期233-238,共6页

基金 supported by the National Natural Science Foundation of China (Grant Nos. 10772185, 50890182) Knowledge Innovation Projects of Chinese Academy of Sciences (Grant No. KGCX-SW-409) and Institate of Mechanics, CAS

关键词蒸发速率液体蒸发耦合作用空气对流毛细作用热毛细对流接口可视化方法 thermocapillary convection, evaporation, temperature profile, flow pattern

分类号 TU528.01 [建筑科学—建筑技术科学] TQ028.61 [化学工程]

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参考文献4

1GUO XiaoChun DONG GuiFang QIU Yong.Electrical bistable characteristics of poly (phenylene sulfide) thin film deposited by thermal evaporation[J].Chinese Science Bulletin,2007,52(6):732-735. 被引量：1
2刘荣,刘秋生.Vapour Recoil Effect on a Vapour Liquid System with a Deformable Interface[J].Chinese Physics Letters,2006,23(4):879-882. 被引量：2
3纪岩,刘秋生,刘荣.Coupling of Evaporation and Thermocapillary Convection in a Liquid Layer with Mass and Heat Exchanging Interface[J].Chinese Physics Letters,2008,25(2):608-611. 被引量：5
4YANG HuiXian SU ZhaoHuit.Individual dispersion of synthetic imogolite nanotubes via droplet evaporation[J].Chinese Science Bulletin,2007,52(16):2301-2303. 被引量：1

二级参考文献33

1Pearson J R A 1958 J. Fluid Mech. 4 489.
2Lide D R and Kehiaian H V 1994 CRC Handbook of Thermophysical and Thermochemical Data (Boca Raton, FL:CRC Press).
3Palmer H J 1976 J. Fluid Mech. 75 487.
4Prosperetti A and Plesset M S 1984 Phys. Fluids 7(7) 1590.
5Miller C A 1973 AIChE J. 19 909.
6Burelbach J P, Bankoff S G and Davis S H 1988 J. Fluid Mech. 195 463.
7Ozen O and Narayanan R 2004 Phys. Fluids 16(12) 4644.
8Kennard E K 1938 Kinetic Theory of gases (New York:McGraw-Hill).
9Colinet P, Legros J C and Velarde M G 2001 Nonlinear Dynamics of Surface Tension-Driven Instabilities (Berlin:Wiley-VCH).
10Zhang N and Chao D F 1999 Int, Commun. Heat Mass Transfer 26(8) 1069.

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1刘荣,朱志强,刘秋生.蒸发液层对流稳定性理论与实验研究进展[J].力学进展,2007,37(2):246-256. 被引量：2
2朱志强,刘秋生.蒸发液面热对流与温度不连续现象的实验研究[J].工程热物理学报,2011,32(1):55-57. 被引量：1
3张利,吴春梅,李友荣.Pr对具有表面蒸发环形池内热毛细对流的影响[J].热科学与技术,2016,15(6):431-437.
4张利,吴春梅,李友荣,殷元春.表面蒸发对环形液池内稳态热毛细对流的影响[J].重庆大学学报（自然科学版）,2017,40(7):1-8. 被引量：1
5郭瑞丰,吴春梅,于佳佳,李友荣.低压蒸汽环境中水蒸发界面温度和蒸发速率的实验研究[J].化工学报,2020,71(12):5489-5497. 被引量：1

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1唐经文,周永利,张文杰,李友荣.环形池内具有自由表面的双层流体热毛细对流[J].热科学与技术,2012,11(1):20-26. 被引量：4
2纪岩,刘秋生,刘荣.Coupling of Evaporation and Thermocapillary Convection in a Liquid Layer with Mass and Heat Exchanging Interface[J].Chinese Physics Letters,2008,25(2):608-611. 被引量：5
3陈淑玲,刘鹏飞,朱志强,刘秋生.几种醇类水溶液表面张力的实验研究[J].北京交通大学学报,2008,32(1):112-115. 被引量：15
4朱志强,刘秋生.Experimental Investigation of Thermocapillary Convection in a Liquid Layer with Evaporating Interface[J].Chinese Physics Letters,2008,25(11):4046-4049. 被引量：4
5刘秋生,汪洋,纪岩.蒸发相变与界面流动耦合机理研究[J].工程热物理学报,2010,31(10):1751-1754. 被引量：7
6ZHANG XiaoBin XIANG ShiJun CAO XiaoLi QIU LiMin.Effects of surface tension on bubble growth in an extensive uniformly superheated liquid[J].Chinese Science Bulletin,2011,56(30):3191-3198. 被引量：4
7Yan Zhao,Hongyu Zhang,Hua Wei,Qi Zheng,Tao Jin,Xiaofeng Sun.Progress of phase-field investigations of γrafting in nickel-base single-crystal superalloys[J].Chinese Science Bulletin,2014,59(15):1684-1695. 被引量：3
8Li Zhang,Li Duan,Qi Kang.An experimental research on surface oscillation of buoyant-thermocapillary convection in open cylindrical annuli[J].Acta Mechanica Sinica,2014,30(5):681-686. 被引量：2
9莫东鸣.液层厚度比对环形腔内双层液体的热毛细对流稳定性的影响[J].热科学与技术,2015,14(3):214-220. 被引量：2
10Yaguang Liu,Cuiping Zhang,Chaofeng Liu,Huanqiao Song,Xihui Nan,Guozhong Cao.The effect of nitrogen annealing on lithium ion intercalation in nickel-doped lithium trivanadate[J].Science Bulletin,2016,61(8):587-593. 被引量：5

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1朱志强,刘秋生.蒸发液面热对流与温度不连续现象的实验研究[J].工程热物理学报,2011,32(1):55-57. 被引量：1
2朱志强,陈淑玲,刘秋生,同少莉.二元工质Marangoni对流的实验研究与数值模拟[J].力学学报,2011,43(4):674-679. 被引量：2
3Mujian Xia,Dongdong Gu,Guanqun Yu,Donghua Dai,Hongyu Chen,Qimin Shi.Selective laser melting 3D printing of Ni-based superalloy： understanding thermodynamic mechanisms[J].Science Bulletin,2016,61(13):1013-1022. 被引量：14
4张利,吴春梅,李友荣.Pr对具有表面蒸发环形池内热毛细对流的影响[J].热科学与技术,2016,15(6):431-437.
5张利,吴春梅,李友荣,殷元春.表面蒸发对环形液池内稳态热毛细对流的影响[J].重庆大学学报（自然科学版）,2017,40(7):1-8. 被引量：1

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2刘文军,朱志强,刘秋生.天舟一号货运飞船空间实验装置蒸发相变地面实验[J].空间科学学报,2016,36(4):481-486. 被引量：2
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4Donghua Dai,Dongdong Gu,Reinhart Poprawe,Mujian Xia.Influence of additive multilayer feature on thermodynamics, stress and microstructure development during laser 3D printing of aluminum-based material[J].Science Bulletin,2017,62(11):779-787. 被引量：7
5程燕婷,孟家光,支超.立体打印机织物基本组织[J].合成纤维,2018,47(1):41-44. 被引量：3
6王迪,钱泽宇,窦文豪,杨永强,李晟,白玉超,肖泽锋.激光选区熔化成形高温镍基合金研究进展[J].航空制造技术,2018,61(10):49-60. 被引量：33
7马力,彭岚,高键,朱承志.旋转和磁场耦合作用对振荡Marangoni-热毛细对流的影响[J].重庆大学学报（自然科学版）,2019,42(9):1-9. 被引量：1
8冯一琦,谢国印,张璧,乔国文,高尚,白倩.激光功率与底面状态对选区激光熔化球化的影响[J].航空学报,2019,40(12):229-238. 被引量：8
9顾瑞楠,WONG Kam Sing,严明.金、银、铜等典型高反射率材料的激光增材制造[J].中国科学：物理学、力学、天文学,2020,50(3):40-53. 被引量：15
10Miao HU,Jian-cheng TANG,Xin-gui CHEN,Nan YE,Xin-yue ZHAO,Miao-miao XU.Microstructure and properties of WC-12Co composite coatings prepared by laser cladding[J].Transactions of Nonferrous Metals Society of China,2020,30(4):1017-1030. 被引量：11

1王智,郭清春,江楠,钱觉时,党玉栋.减缩剂在水泥基材料中的作用历程与机理研究[J].建筑材料学报,2012,15(5):601-606. 被引量：11
2田宏,白锐.Smokeview——理解火灾动力学的可视化方法[J].消防技术与产品信息,2008(11):75-78. 被引量：1
3臧伟钰.花泥保温盖[J].物理教学探讨（初三年级学研期）,2009,27(10):75-75.
4王川,杨长辉,吴芳,陈科.矿渣和粉煤灰对混凝土塑性收缩裂缝的影响[J].混凝土,2002(11):45-48. 被引量：23
5喻骁.砂率变化对混凝土塑性收缩裂缝的影响[J].山西建筑,2007,33(19):165-166. 被引量：5
6杨淼,施明恒.节能型生态住宅冬季供暖系统性能的数值模拟[J].建筑热能通风空调,2002,21(1):7-11.
7杨长辉,孙大明,喻骁.水灰比对轻骨料混凝土塑性收缩裂缝的影响[J].重庆建筑大学学报,2004,26(3):85-88. 被引量：8
8张倩倩,魏亚.水泥混凝土塑性阶段表面蒸发速率研究[J].建筑材料学报,2015,18(1):128-132. 被引量：4
9潘旭海,华敏,蒋军成,龚红卫.基于层流边界层理论的单组分液体蒸发速率的预测[J].南京工业大学学报（自然科学版）,2006,28(4):13-17. 被引量：1
10露冰.造纸工业通风节能措施[J].国际造纸,2005,24(1):14-16.

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2010年第3期

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