Mathematical Simulation of Lithium Bromide Solution Laminar Falling Film Evaporation in Vertical Tube 被引量：3

Mathematical Simulation of Lithium Bromide Solution Laminar Falling Film Evaporation in Vertical Tube

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摘要 For utilization of the residual heat of flue gas to drive the absorption chillers,a lithium-bromide falling film in vertical tube type generator is presented.A mathematical model was developed to simulate the heat and mass coupled problem of laminar falling film evaporation in vertical tube.In the model,the factor of mass transfer was taken into account in heat transfer performance calculation.The temperature and concentration fields were calculated.Some tests were conducted for the factors such as Re number,heating flux,the inlet concentration and operating pressure which can affect the heat and mass transfer performance in laminar falling film evaporation.The heat transfer performance is enhanced with the increasing of heat flux.An increasing inlet concentration can weaken the heat transfer performance.The operating pressure hardly affects on heat and mass transfer.The bigger inlet Re number means weaker heat transfer effects and stronger mass transfer.The mass transfer obviously restrains the heat transfer in the falling film solution.The relation between dimensionless heat transfer coefficient and the inlet Re number is obtained. For utilization of the residual heat of flue gas to drive the absorption chillers,a lithium-bromide falling film in vertical tube type generator is presented.A mathematical model was developed to simulate the heat and mass coupled problem of laminar falling film evaporation in vertical tube.In the model,the factor of mass transfer was taken into account in heat transfer performance calculation.The temperature and concentration fields were calculated.Some tests were conducted for the factors such as Re number,heating flux,the inlet concentration and operating pressure which can affect the heat and mass transfer performance in laminar falling film evaporation.The heat transfer performance is enhanced with the increasing of heat flux.An increasing inlet concentration can weaken the heat transfer performance.The operating pressure hardly affects on heat and mass transfer.The bigger inlet Re number means weaker heat transfer effects and stronger mass transfer.The mass transfer obviously restrains the heat transfer in the falling film solution.The relation between dimensionless heat transfer coefficient and the inlet Re number is obtained.

作者 Chengming Shi YangWang Huili Hu YingYang

机构地区 College of Power Engineering

出处《Journal of Thermal Science》 SCIE EI CAS CSCD 2010年第3期239-244,共6页 热科学学报（英文版）

关键词溴化锂溶液降膜蒸发垂直管数学仿真吸收式冷水机组传热性能烟气余热利用传热传质 lithium bromide solution, refrigeration, falling film, evaporation, heat and mass transfer

分类号 TQ051.62 [化学工程] TB651 [一般工业技术—制冷工程]

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参考文献1

1Chengming Shi Canjun Xu Huili Hu Yang YingDepartment of Power Engineering, Chongqing University, 400044, Chongqing, China,.Study on falling film generation heat transfer of lithium bromide solution in vertical tubes[J].Journal of Thermal Science,2009,18(3):241-245. 被引量：5

二级参考文献10

1Nusselt, W. Die. Oberflachen kondensation des Wasserdampfes. Zeitschrift Verein Deutscher ingenieure, 1916.60:541-546 and p569-575.
2K. R. Chun, R. A. Seban. Heat transfer to evaporating liquid film [J]. ASME Journal of Heat transfer, 1971: 371-396.
3H Struve, Heat Transfer to an Evaporating falling Refrigerant Film. 12th Congress of the International Institute of Refrigeration. Madrid. 1967.
4T. Fujita, T. Ueda. Heat transfer to falling liquid films and film breakdown [J]. Int. J. Heat Mass Transfer. 1978.21: 109-118.
5J. W. Palen, Qi Wang, J. C. Chen. Falling film evaporation of binary mixture, AICHE Journal, 1994, 40(2): 207-214.
6Philipp Adomeit, Ulrich Renz. Hydrodynamics of three-dimensional waves in laminar falling films [J], Int. J. Multiphase Flow, 2000, 26:1183-1208.
7Lyu, T.H. and Mudawar, I Statistical investigation of the relationship between interracial waviness and sensible heat transfer to a falling liquid film [J], Int. J. Heat Mass Transfer .1991.34: 1451-1463.
8Moon-Hyun Chun, Scok-jeong Park. Effects of turbulence model and interracial shear on heat transfer in turbulent falling liquid films. International Communication in Heat and Mass Transfer, 1995, 22 (1): 1-22.
9Alan J Chapman, 1960, Heat Transfer, Macmillan Publishing Co., Inc, New York, p391-396.
10Dai Yongqing, LiBr Absorption Refrigeration Technology and Application, Mechanical Industry Publishing, Beijing, 1996, p94.

共引文献4

1石程名,王洋,宫世吉.溴化锂溶液竖管内降膜蒸发传热性能分析[J].重庆大学学报（自然科学版）,2010,33(9):113-118. 被引量：4
2杨颖,王洋,石程名,徐灿君.竖管内溴化锂溶液降膜蒸发数值研究[J].太阳能学报,2012,33(4):658-662. 被引量：5
3张天娇,马良栋,张吉礼,张继谊.强化管表面结构对竖管降膜流动特性的影响[J].西安交通大学学报,2020,54(4):53-60. 被引量：3
4梁之琦,徐孟飞,殷勇高.LiCl溶液垂直管外降膜发生效果的实验[J].化工学报,2016,67(S2):87-93. 被引量：2

同被引文献48

1朱玉峰,董金华.竖管降膜蒸发器的性能研究[J].轻工机械,2005,23(2):13-15. 被引量：6
2T RIBATSKIG, M. JACOBI A. Falling-film evaporation on horizontal tubes-a critical review [J]. International Journal of Refrigeration, 2005, 28 (5) : 635- 653.
3ARSHAVSKI I, NEKHAMKIN Y, OLEK S, et al. Conjugate heat transfer during falling film evaporation[J]. International Communications in Heat and Mass Transfer, 1995, 22(2): 271-284.
4ZHANG F, WU Y T. An investigation of falling liquid films on a vertical heated/cooled plate[J]. International Journal of Multiphase Flow, 2008, 34(1):13-28.
5ZHANG F, TANG D L. Study on the temperature distribution of heated falling liquid films[J]. Physiea D: Nonlinear Phenomena, 2008, 237(7):867 -872.
6YANG L P, SHEN S Q. Experimental study of failing film evaporation heat transfer outside horizontal tubes [J]. Desalination, 2008, 220(1/3):654-660.
7BEN JABRALLAH S , BELGHITH A, CORR1OU J P. Convective heat and mass transfer with evaporation of a lalling film in a eavity[J]. International Journal of Thermal Science, 2006, 45(1): 16-28.
8BEN JABRALLAH S, CHERIF A S. Experimental study of the evaporation of a falling film in a close cavity[J]. Desalination, 2005, 180(1/3): 180-195.
9CHUN K R, SEBAN R A. Heat transfer to evaporating liquid film [J]. ASME Journal of Heat transfer, 1971,391-396.
10STRUVE H. Heat Transfer to an evaporating falling refrigerant film[C]// 12th Congress of the International Institute of Refrigeration, August, 1967, Madrid,Spain. [S. l.]: IEEE, 1967:284-291.

引证文献3

1石程名,王洋,宫世吉.溴化锂溶液竖管内降膜蒸发传热性能分析[J].重庆大学学报（自然科学版）,2010,33(9):113-118. 被引量：4
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3LIU Feng,JING Yang,LIU Taixiu,SUI Jun,XU Yujie.Experimental Investigation on an Absorption Heat Transformer for Production of Hot Water or Steam Generation[J].Journal of Thermal Science,2021,30(2):574-584.

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1张峰榛,钟悦声,杜怀明,彭李.溴化锂溶液真空表面蒸发实验研究[J].四川理工学院学报（自然科学版）,2013,26(6):1-3. 被引量：2
2马静.水平管降膜式蒸发器的研究进展及新技术[J].制冷与空调,2014,14(4):103-106.
3马静.水平管降膜式蒸发器的优化设计模型[J].制冷与空调,2014,14(4):117-119.
4张峰榛,王海,刘兴勇,周小兵.溴化锂溶液吸收制冷传热传质实验研究[J].四川理工学院学报（自然科学版）,2014,27(5):1-3. 被引量：1
5葛强强,王学生,付亚波,陈琴珠.不锈钢纵槽管降膜蒸发传热性能[J].科学技术与工程,2017,17(20):160-165. 被引量：2
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7丁鑫,陈晔,贾可俊.基于VOF模型的水平管蒸发器液膜流动数值研究[J].轻工机械,2018,36(5):40-44. 被引量：1
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9卢炯,许雄文,刘金平.管外肋结构优化降膜流动布膜效果的数值模拟[J].工业炉,2021,43(5):1-5.
10谢迎春,刘军,徐畅,蒋执俊,王宗满,李玲,孙国强,黄达伟,马洪亭.竖直降膜蒸发冷凝管内液膜流动特性研究[J].流体机械,2022,50(6):39-46. 被引量：3

1王宗伟.玻璃熔窑烟气余热利用[J].中国玻璃,2012(4):3-5.
2Chengming Shi Canjun Xu Huili Hu Yang YingDepartment of Power Engineering, Chongqing University, 400044, Chongqing, China,.Study on falling film generation heat transfer of lithium bromide solution in vertical tubes[J].Journal of Thermal Science,2009,18(3):241-245. 被引量：5
3魏琪,夏利江.垂直管吸收器内泡式吸收过程的数值研究[J].制冷与空调,2007,7(1):35-38. 被引量：2
4任明其.浅谈工程中的仿真技术[J].机电设备,1998(3):3-5.
5赵连友,袁长江,阎巍森.合成氨一段转化炉烟气余热的利用[J].中氮肥,1998(6):33-34.
6陈裕伟,于志东,王乐明.余热型溴化锂吸收式冷水机组在氯碱生产的应用[J].中国氯碱,1996(7):36-37.
7任建疆,杜连达,张宝田.浅议罐式煅烧炉烟气热量的利用[J].轻金属,1998(6):44-47. 被引量：6
8开利、三洋联合销售吸收式冷水机组[J].制冷技术,2004,24(4):38-38.
9陈裕伟,王乐明.余热型溴化锂吸收式冷水机组在氯碱生产工艺中的应用[J].制冷技术,1997,17(1):28-29.
10韩红伟.玻璃熔窑纯低温余热发电[J].玻璃与搪瓷,2012,40(1):22-24. 被引量：1

Journal of Thermal Science

2010年第3期

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