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波槽管管外珠状凝结换热的实验探讨 被引量:2

Experimental Investigation of Tube-outside Dropwise Condensation Heat Exchange of a Corrugated Tube
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摘要 在水平及垂直管外水蒸气凝结的条件下,对4种实验管的传热性能进行了比较实验研究.对于水平、略高于大气压的凝结条件,在实验范围内,BGT管的总传热系数约为光管的1.38~1.60倍,而BGT-1管的总传热系数约为光管的2.05~2.16倍.对于同一管型,在真空Ph=0.068 6 MPa、冷却水Re数5×103~4×104范围内,BGT-1管垂直布置时总传热系数约为水平布置时的0.78~0.87倍.实验结果表明,布置方式、蒸汽凝结负荷及压力是维持珠状凝结持久的重要影响因素. Under the condition of steam condensation outside a horizontal and vertical tube a comparative experimental investigation was conducted for the heat transfer performance of four kinds of experimental tubes. Within the range of tests for a horizontal tube with a condensation condition slightly higher than one atmospheric pressure the total heat transfer factor of tube BGT is about 1.38-1.60 times of that of a bare tube, while the total heat transfer factor of tube BGT-1 is about 2.05-2.16 times of that of a bare tube. For the same tube type within the range of vacuum Ph = 0.0686 MPa and cooling water Re number 5 × 103-4 × 104 the total heat transfer factor of a vertically installed tube BGT-1 is about 0.78-0.87 times of that of a horizontally installed tube. The results of the tests indicate that the layout scheme, steam condensation load and pressure are major influencing factors for maintaining a sustained dropwise condensation.
作者 黄渭堂 刘锋 照日格图
机构地区 哈尔滨工程大学动力与核能工程学院
出处 《热能动力工程》 EI CAS CSCD 北大核心 2005年第6期587-590,共4页 Journal of Engineering for Thermal Energy and Power
关键词 波槽管 珠状凝结 水质 铜镍合金 corrugated tube,dropwise condensation,water working medium,copper-nickel alloy
分类号 TK124 [动力工程及工程热物理—工程热物理]
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参考文献2

  • 1黄渭堂 刘军彦.波槽管传热及阻力特性的初步实验研究[A]..船用核动力专业委员会第17次年会论文专集[C].北京:原子能出版社,2003.77-78.
  • 2黄渭堂 阎昌琪 孙中宁.一种新型波槽换热管[P].中华人民共和国,ZL03244999.2.2004.8.18.

共引文献7

同被引文献14

  • 1张定才,刘启斌,陶文铨,何雅玲.R22在水平双侧强化管外的凝结换热[J].化工学报,2005,56(10):1865-1868. 被引量:17
  • 2朱冬生,沈家龙,唐广栋,蒋翔,欧阳惕.水分布对蒸发式冷凝器传热传质的影响[J].工程热物理学报,2007,28(1):83-85. 被引量:28
  • 3Sa6ar S. Gulawani, Jyoshth&aj B.Joshi, Manlsh S.Shah,Chaganti S.RamaPrasad.CFD analysis or flow pattern and heat transfer In direct contact steam condensation[J].Chemlcal Ensineerin6 Science, 2006(61) 5204 5220.
  • 4Bilal A.Qureshi,Syed M.Zubalr.A comDrehenslvo aeslsn ratin study of evaporative coolers al condensers.Part II.Sensitivity analysis.international Journal of Refrisoration,2006(29)659 668.
  • 5Suresfumar, P.L.,S.R.Kale. EffecLs of spray rn(xellr on heat and mass treasfer In air water spray systems In parallel flow [d]. Int.natlol Corrcalon In t_,at and Mass lransfer, 2007 (34):878 886.
  • 6S.Pethkool, S.Elamsa ard, S.Kwankaomena, P.Promvore. lurbenL heat transfer enhancement in heat excer usin8 heliCally Cof'ruaatecI LLIce[d]. International cx3frrnunlcatlons In heat and mass traqsfer, 2011,38 (3): 340 347.
  • 7P.O.Vicente, A.Garc, A.Viedma. Experiment investiaation on heat transfer and frictional cheracterlstics of spirally ccrruaatecl tubes in turt)ulent flow at different prantal mmbers [d]. Journal of heat and mass transfer, 2004,47(4)=671 681.
  • 8A.Barba, S.Ralnieri, M.Spiaa. Heat transfer enhancement in a corru@ated tube. International communications in heat and mass trersfer,2002,29313-322.
  • 9Y.Don6, L.HUixion6, C.Tin6kuan. Pressure QroD heat transfer and performance of slnale phase turbulent In spiraliy corruaated tubes. Experimental thermal and fluid science, 2001, 24(3);131 138.
  • 10马志先,张吉礼,孙德兴.HFC245fa水平光管与强化管管束外冷凝换热[J].化工学报,2010,61(5):1097-1106. 被引量:25

引证文献2

二级引证文献4

热能动力工程
2005年 第6期

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