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不同倾角放置螺旋管汽波两相摩擦阻力特性 被引量:2

FRICTIONAL PRESSURE DROP CHARACTERISTICS OF STEAM - WATER TWO - PHASE FLOW IN HELICALLY COILED TUBES ORIENTED WITH VARIOUS AXIAL ANGLES
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摘要 在宽广的参数范围内试验研究了螺旋管在不同倾角放置时的单相及汽液两相摩擦阻力特性,获得了螺旋管放置方向及各主要系统参数对汽液两相摩擦阻力特性的影响规律。在对试验结果及前人研究结果进行详细分析的基础上,获得了第一个能适用于不同倾角放置螺旋管的单相及汽液两相摩擦阻力计算式,从而为汽液两相摩擦阻力及螺旋管的进一步研究和应用提供了依据。 In this paper, an experimental and theoretical investigation on the characteristics of factional pressure losses of steam - water two - phase flow in helically coiled tubes was conducted in a wide range of system and flow parameters, which are as follows: system pressure p =0.5 -3.5 MPa; mass flow rate G = 200-4300 kg·m-2·s-1; heat flux q =0-580 kW·m-2; exit mass quality x= -0.01- +1.2. The angle between the central axis of helically coiled tube and horizontal line: θ= 0°, + 45°, 90°, - 45°. The experimental results were analyzed and compared with some correlation and data proposed in previous literature. Based on Chen's correlation and our experimental data, a new revised correlation was proposed for the calculation of frictional pressure drop of gas liquid two - phase flow in helically coiled tubes oriented with various axial angles. A good agreement was arrived between the calculated values and experimental data.
作者 张西民 郭烈锦 冯自平
机构地区 西安交通大学动力工程多相流国家重点实验室
出处 《化工学报》 EI CAS CSCD 北大核心 1999年第3期373-379,共7页 CIESC Journal
基金 国家自然科学基金资助项目(No.59306061)
关键词 汽液两相流 螺旋管 放置倾角 换热管 摩擦阻力 steam - water two - phase flow, helically coiled tube, axial angle of orientation, frictional pressure drop
分类号 TQ021.1 [化学工程] TQ053.6 [化学工程]
  • 相关文献

参考文献3

  • 1陈立勋 陈学俊.多相流及传热学论文选集[M].西安:西安交通大学出版社,1984,7.1-7,6.
  • 2林宗虎,汽液两相流和沸腾传热,1987年,46页
  • 3陈立勋,多相流及传热学论文选集,1984年

同被引文献21

  • 1淮秀兰,Shigeru Koyama.微通道内超临界二氧化碳的压降与传热特性[J].工程热物理学报,2004,25(5):843-845. 被引量:14
  • 2AKACAWA K,SAKAGUCHI T,UEDA M.Study on gas-liquid twophase flow in helically coiled tubes[J].JSME,1971,72(14):564-571.
  • 3ITO H.Frictional factors for turbulent flow in curved types[J].Journal of Engineering,1959,81:123-134.
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  • 5CZOP V,BARBIER D,DONG S.Pressure drop void fraction and shear stress measurements in an adiabatic two-phase flow in a coiled tube[J].Nuclear Engineering and Design,1994,149:323-333.
  • 6XIN R C,AW WAD A,DONG Z F,et al.An investigation and comparative study of the pressure drop in air-water two-phase flow in vertical helicoidal pipes[J].International Journal of Heat and mass Transfer,1996,44:735-743.
  • 7LOCKHART R W,MARTINELLI R C.Proposed correlation of data for isothermal two-phase,two-component flow in pipes[J].Chemical Engineering Progress,1949,45:39-48.
  • 8Chepkin V.New generation of Russian aircraft engines conversion and future goals[R].ISABE 99-7042,1999.
  • 9黄树军.航空发动机换热器的应用研究 [D].北京:北京航空航天大学,2006.
  • 10Thurston R S.Pressure oscillations induced by forced convection heat transfer to two phase and supercritical hydrogen:preliminary experiments[R].Los Alamos Scientific Laboratory Report N64-21055,1964.

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化工学报
1999年 第3期

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