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R404A在水平内螺纹管中的冷凝传热研究 被引量:3

Investigation on condensation heat transfer for R404A inside microfin-tube
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摘要 经过实验与理论对比,研究了R404A在外径9.52 mm内螺纹管内局部平均冷凝换热系数。采用Cavallini纯工质与混合工质关联式分别计算的冷凝换热系数,最大偏差不到4%。在工程计算R404A内螺纹管内冷凝换热系数时,可将其以纯质来对待。分析比较Cavallini,Yu-Koyama和Kaushink-Azer关联式,各自的理论预测值和实验结果相比,表明Cavallini关联式的预测精度最高,其标准偏差为7.76%。因此Cavallini关联式对于R404A在管内的冷凝换热预测有较好的适用性。研究结果对R404A冷凝器的工程设计及其优化具有一定的参考意义。 The characteristics of average condensation heat transfer for R404A inside microfin tube were investigated theoretically and experimentally.Considering R404A as a pure and mixture refrigerant respectively,the condensation heat transfer coefficients inside the copper tube with an outside diameter of 9.52 mm were predicted by Cavallini correlations for pure and mixture refrigerants.The difference between two predicted condensation heat transfer coefficients increases with the vapor quality,and the maximum difference is less than 4%.It shows that R404A can be treated as pure refrigerant when calculating its in-tube condensation heat transfer coefficients for industrial application.Three correlations of Cavallini,Yu-Koyama and Kaushink-Azer were analyzed and applied to predict condensation heat transfer coefficient for R404A.Compared with the experimental data,Cavallini correlation illustrates that the highest accuracy in predicting condensation heat transfer coefficients for R404A inside microfin tubes.The standard error is 7.76%.The results are valuable for designing and optimizing R404A condensers.
作者 南晓红 罗昕岚 C.A.Infante Ferreira
机构地区 西安建筑科技大学环境与市政工程学院 代尔夫特理工大学机械、海洋与材料工程学院
出处 《化学工程》 CAS CSCD 北大核心 2008年第5期16-19,27,共5页 Chemical Engineering(China)
关键词 内螺纹管 R404A 关联式 冷凝换热系数 microfin-tube R404A correlation condensation heat transfer coefficient
分类号 TB611 [一般工业技术—制冷工程]
  • 相关文献

参考文献7

  • 1吴华根,束鹏程,邢子文.采用替代工质的空气源热泵性能试验研究[J].暖通空调,2006,36(1):60-62. 被引量:11
  • 2Ge Y T, Cropper R. Performance evaluations of aircooled condensers using pure and mixture refrigerants by four-section lumped modelling methods [ J ]. Applied Thermal Engineering ;2005,25 (10):1 549--1 564.
  • 3Boissieux X, Heikal, Johns R A. Two-phase heat transfer coefficients of three HFC refrigerants inside a horizontal smooth tube part Ⅱ: Condensation[ J]. Int J of Refrigeration, 2000,23 ( 5 ):345 --352.
  • 4Sami S M, Fontaine M. Prediction of condensation characteristics of alternatives to R502 inside air-refrigerant enhanced surface tubing[J]. Applied Thermal Engineering, 2000,20(2) : 199--212.
  • 5Cavallini A, Del col D, Doretti L, et al. Heat transfer and pressure drop during condensation of refrigeration inside horizontal enhanced tubes [ J ]. Int J Refri, 2000,23 ( 1 ):4--25.
  • 6Yu J, Koyama S. Condensation heat transfer of pure refrigerants in microfin tubes [ A ]. Proc of 20^th International Congress of Refrigeration [ C ]. Sydney IIR/IIF, 1998. 325-330.
  • 7Sur B, Azer N Z. Effect of oil on heat transfer and pressure drop during condensation of refrigerant-113 inside smooth and internally finned tues [ J]. ASHRAE Trans, 1991,97(Part Ⅰ):365--373.

二级参考文献6

  • 1董天禄.离心式/螺杆式制冷机组及应用[M].北京:机械工业出版社,2001.177-198.
  • 2National Institute of Standards and Technology.NIST Thermodynamic Properties of Refrigerants and Refrigerant Mixtures Database (REFPROP) [R],1996.
  • 3Radermacher R,Jung D S.Theoretical analysis of replacement refrigerants for R22 for residential uses[G]//ASHRAE Trans,1993,99(1):333- 343.
  • 4Mulroy W,Kauffeld M,Mclinden M,et al.Experimental evaluation of two refrigerants mixtures in a breadboard air conditioner [C] // Proc of Int Refrigeration,Purdue Conference on CFCs,1988:27- 34.
  • 5谷波,李文华.R22三种替代物R134a、R410a和R407c在空调系统中性能对比研究[J].流体机械,1999,27(10):41-42. 被引量:26
  • 6曹锋,陈芝久,赵薰,黄培炫,李汉武.制冷系统中R407C替代R22技术研究综述[J].制冷与空调,2002,2(1):61-63. 被引量:18

共引文献10

同被引文献24

  • 1刘一民,胡丽英,巢龙兆.混合工质R407C的实验研究[J].流体机械,2003,31(z1):114-116. 被引量:1
  • 2成昌锐,王秋旺,刘星,陶文铨.R407C在水平单管外凝结换热的实验研究[J].工程热物理学报,2001,22(S1):50-52. 被引量:10
  • 3陈九法.关于R407C用于替代R22的研究[J].流体机械,2004,32(8):69-72. 被引量:8
  • 4武永强,罗忠.一种新型高效传热铜管的冷凝传热性能实验研究[J].制冷与空调,2006,6(1):75-78. 被引量:10
  • 5Jung D,Song Y,Park B. Performance of HCFC22 alter- native refrigerants [ J ]. Int. J. Refrigeration, 2000,23 : 466 - 474.
  • 6ParK K, Jung D. Performance of alternative refrigerants for residential air conditioning applications [ J ]. Appl. Energy, 2007,84:985 - 991.
  • 7Man - Hoe Kim, Joeng - Seob Shin. Evaporating heat ~ transfer of 1t22 and R410A in horizontal smooth and mi- crofin tubes [ J ]. International Journal of Refrigeration, 2005,28 (3) :940 - 948.
  • 8Cavallini A. Working fluids for mechanical refrigeration [ J]. International Journal of Refrigeration, 1996,19 ( 8 ) : 485-496.
  • 9Chen J, Kiuse H. Concentration shift simulation the mixed re- frigerants R404A, R32,/ R134a and R407C in an air condi- tioning system [ J]. International Journal of HVAC&R Re- search, 1997, 3 (2):149-157.
  • 10Boissieux X, Heikal, Johns R A. Two-phase heat transfer coefficients of three HFC refrigerants inside a horizontal smooth tube part : condensation [ J ]. International Journal of Refrigeration, 2000, 23 (5) :345-352.

引证文献3

二级引证文献18

化学工程
2008年 第5期

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