期刊文献+

高热通量水平管外池沸腾传热 被引量:3

Pool boiling heat transfer outside horizontal tubes at higher heat flux
下载PDF
导出
摘要 在制冷空调的满液式蒸发器中,制冷剂在壳侧沸腾蒸发,管内为水的单相对流传热。实验研究了高热通量下R134a在一根光管和一根强化管(No.1)外的池沸腾传热,并将光管实验结果和Cooper公式进行了比较。在不同的饱和温度下,热通量10~250kW·m^(-2)的范围内,研究了R134a在光管和强化管外的沸腾传热系数随热通量的变化关系。光管和强化管外径分别为15.93 mm和25.36 mm。通过研究发现,在热通量10~250kW·m^(-2)的范围内,光管的池沸腾传热系数和Cooper公式符合较好,偏差小于±15%。在双对数坐标下传热系数和热通量实验结果拟合直线斜率为0.67。在较高热通量,即热通量大于250kW·m^(-2)时,光管的传热系数相对Cooper公式偏差开始增大。对于高效管,在小于40kW·m^(-2)热通量下的传热效果最好。强化管的强化倍率随热通量增加一直减小,在较高热通量250kW·m^(-2)下,强化管的传热系数和光管相同,甚至比光管小。 For the flooded evaporator in refrigeration or air conditioning systems,refrigerant is boiling on the shell side and water is flowing in the tube side.The pool boiling heat transfer coefficient of R134 a outside one smooth tube and one reentrant cavity enhanced tube No.1is investigated with an experimental approach.At the saturate temperature of 6,10 and 16℃,the heat flux of 10—250kW·m^(-2),the heat transfer coefficient versus heat flux of smooth tube is investigated and compared with Cooper correlation.The external diameter of smooth tube and enhanced tube are 15.93 mm and 25.36 mm,respectively.At the heat flux of 10—250kW · m^(-2),it is found that the deviation of experimental result and Cooper correlation is within ±15%.the average value of m in h∝qm,is 0.67.For the enhanced tube,the enhanced ratio is the largest at the heat flux less than 40kW·m^(-2).The enhanced ratio is decreasing as the increment of heat flux.At the heat flux larger than 250kW·m^(-2),the heat transfer coefficient ofenhanced tube is approaching the smooth tube,and even smaller than smooth tube.
出处 《化工学报》 EI CAS CSCD 北大核心 2016年第S1期28-32,共5页 CIESC Journal
基金 国家自然科学基金项目(51306140) 高等学校博士学科点专项科研基金项目(20130201120057)~~
关键词 池沸腾 热通量 饱和温度 传热系数 强化管 pool boiling heat flux saturate temperature heat transfer coefficient enhanced tube
  • 相关文献

参考文献20

  • 1Gnielinski V.New Equations for Heat and Mass Transfer in Turbulent Pipe and Channel Flows. International Chemical Engineering . 1976
  • 2Ji, Wen-Tao,Zhang, Ding-Cai,Feng, Nan,Guo, Jian-Fei,Numata, Mitsuharu,Xi, Guannan,Tao, Wen-Quan.Nucleate pool boiling heat transfer of R134a and R134a-PVE lubricant mixtures on smooth and five enhanced tubes. Journal of Heat Transfer . 2010
  • 3ZHAO C Y,JI W T,JIN P H et al.Heat transfer correlation of the falling film evaporation on a single horizontal smooth tube. Applied Thermal Engineering . 2016
  • 4Bergles A E,Manglik R M.Current progress and new developments in enhanced heat and mass transfer. Journal of Enhanced Heat Transfer . 2013
  • 5WEBB R L,KIM N H.Principle of Enhanced Heat Transfer. . 2005
  • 6郭剑飞,李增耀,屈治国,冀文涛,陶文铨.水平金属泡沫管外R134a凝结传热实验研究[J].工程热物理学报,2011,32(5):839-842. 被引量:3
  • 7冀文涛,屈治国,郭剑飞,张定才,陶文铨.水平管外开孔铜泡沫R134a池沸腾换热实验研究[J].工程热物理学报,2010,31(7):1185-1188. 被引量:9
  • 8冀文涛,冯楠,张定才,郭剑飞,陶文铨.润滑油对水平管外R134a池沸腾换热的影响[J].工程热物理学报,2009,30(5):821-823. 被引量:2
  • 9冀文涛,张定才,冯楠,陶文铨.水平管外含油及纯R134a池沸腾换热特性比较[J].工程热物理学报,2008,29(7):1195-1198. 被引量:1
  • 10Wen-Tao Ji,Chuang-Yao Zhao,Ding-Cai Zhang,Shun Yoshioka,Ya-Ling He,Wen-Quan Tao.??Effect of vapor flow on the falling film evaporation of R134a outside a horizontal tube bundle(J)International Journal of Heat and Mass Transfer . 2016

二级参考文献42

  • 1卢天健,何德坪,陈常青,赵长颖,方岱宁,王晓林.超轻多孔金属材料的多功能特性及应用[J].力学进展,2006,36(4):517-535. 被引量:253
  • 2Stephan K. The Effect of Oil on Heat Transfer of Boiling R-12 and R-22. Kaeltetechnik, 1964, 16(6): 162 -166.
  • 3Jenson M K, Jackman D L. Prediction of Nucleate Boiling Heat Transfer Coefficients of Refrigeration-Oil Mixtures. ASME Journal Heat Transfer, 1984, 106:184-190.
  • 4Memory S B, Akeasayar N, Eraydin H, et al. Nucleate Pool Boiling of R-114 and R-114-Oil Mixtures from Smooth and Enhanced Surfaces I1. Tube Bundles. Int. J. Heat Mass Transfer, 1995, 38(8): 1363-1376.
  • 5Memory S B, Sugiyama D C, Marto P J. Nucleate Pool Boiling of R-114 and R-114-Oil Mixtures from Smooth and Enhanced Surfaces I. Single Tubes. Int. J. Heat Mass Transfer, 1995, 38(8): 1347-1361.
  • 6Kedzierski M A. Effect of Bulk Lubricant Concentration on the Excess Surface Density During R123 Pool Boiling. International Journal of Refrigeration, 2002, 25(8): 1062-1071.
  • 7Kedzierski M A. Effect of Bulk Lubricant Concentration on the Excess Surface Density During R134a Pool Boiling. International Journal of Refrigeration, 2005, 28(4): 526-537.
  • 8Kedzierski M A. Effect of Refrigerant Oil Additive on R134a and R123 Boiling Heat Transfer Performance. International Journal of Refrigeration, 2007, 30(1): 144-154.
  • 9ZHANG D C, JI WT, TAO W Q. Condensation Heat Transfer of HFC134a on Horizontal Low Thermal Conductivity Tubes. International Communications in Heat and Mass Transfer, 2007, 34(8): 917-923.
  • 10YANG S M, TAO W Q. Heat Transfer. Higher Education Press, 2006.

共引文献14

同被引文献17

引证文献3

二级引证文献2

相关作者

内容加载中请稍等...

相关机构

内容加载中请稍等...

相关主题

内容加载中请稍等...

浏览历史

内容加载中请稍等...
;
使用帮助 返回顶部