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波节管纵向逆流换热性能的三维数值模拟研究 被引量:1

3D Numerical Simulation Investigation of Heat Transfer Performance for Vertical Countercurrent Flow in Corrugated Tube
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摘要 本文基于k-ε模型,针对波节管高效换热元件中纵向逆流换热的传热特性和阻力特性进行三维数值模拟研究。传热工质在管程和壳程分别为氦气和氮气,管束采用三角形布置。本文首先分析了不同波距及雷诺数下对换热量影响。为了体现高效换热元件比光管的优越性,随后分析了不同波距及雷诺数对Q/Q0(波节管与光管的换热量比)与Δp/Δp0(波节管与光管的压力降比)。最后得出结论,波距L的增加使高效换热元件的传热性能和阻力性能有所降低,但提高了其综合传热性能。雷诺数的增加会大幅提高换热量,但同时综合传热效率也大幅降低。 In this article,the 3D k-ε Model numerical simulation is adopted to research heat transfer and frictional characteristic of the vertical countercurrent flow in corrugated tube.The working medium was helium and nitrogen in the tube side and shell side respectively.The tube bundle has used triangular arrangement.The paper has first analyzed the impact of different wave distance and Reynolds number on heat transfer rate.At the same time,the impact of different wave distance and Reynolds number on Q/Q0(heat transfer ratio between smooth and corrugated tube) and Δp/Δp0(pressure loss ratio between smooth and corrugated) were also analyzed in order to emphasize the superiority of corrugated tube.It was found that the heat transfer and frictional characteristic of corrugated tube have decreased with the increasing of wave length,whereas the overall heat transfer performance has been improved.On the contrary,the Reynolds number has the opposite effect.
作者 金铁石 付崇彬
机构地区 吉林省延边州特种设备检验中心 哈尔滨工业大学能源科学与工程学院
出处 《节能技术》 CAS 2012年第3期212-215,219,共5页 Energy Conservation Technology
关键词 波节管 k-ε模型 传热性能 阻力性能 综合传热效率 corrugated tube k-ε Model heat transfer performance frictional performance overall heat transfer performance
分类号 TK172 [动力工程及工程热物理—热能工程]
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  • 1郎逵.波节管强化传热式换热器的开发与应用[J].节能,1994,13(7):44-46. 被引量:6
  • 2曾敏,石磊,陶文铨.波纹管管内层流流动和换热规律的实验研究及数值模拟[J].工程热物理学报,2006,27(1):142-144. 被引量:33
  • 3杨世铭.传热学[M].高等教育出版社,1987,10.. 被引量:117
  • 4Webb R L. Principles of Enhanced Heat Transfer[M]. New York:John Willey & Sons,Inc. ,1994. 被引量:1
  • 5Tao W Q. Conjugated Laminar Forced Convective Heat Transfer from Internally Finned Tubes[J]. ASME J Heat Transfer, 1987,109(3):791-795. 被引量:1
  • 6Rustun I M,Soliman H M. Experimental Investigation of Laminal Mixed Convection in Tubes with Longitudinal Internal Fins[J]. ASME J Heat Transfer,1988,110(2) :310-313. 被引量:1
  • 7Kellar K M, Patankar S V. Numerical Prediction of Fluid and Heat Transfer in Circular Tube with Longitudinal Fins Interrupted in the Streamwise Direction[J]. ASME J Heat Transfer,1990,112(2) :342-348. 被引量:1
  • 8Yu B,Nie J H ,Tao W Q. Experimental Study on the Pressure Drop and Heat Transfer Characteristics of Tubes with Internal Wave-like Fin Tubes[J]. Heat and Mass Transfer, 1999,35 (1) :65-73. 被引量:1
  • 9Sparrow E M,Comb J W. Effect of Interwall Spacing and Fluid Flow Fnlet Conditions on Corrugated wall Heat Exchanger[J]. Int. J Heat Mass Transfer,1983,26(7):993-1005. 被引量:1
  • 10Mendes P S, Sparrow E M. Periodically Converging diverging Tubes and Their Turbulent Heat Transfer, Pressure Drop, Fluid Flow, and Enhancement Characteristics [J]. ASME J Heat Transfer, 1984,106(1) :35-63. 被引量:1

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2012年 第3期

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