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基于小波分析的垂直向上横掠水平管束汽液两相流流型辨识 被引量:2

The Two-Phase Flow Patterns Identification in Horizontal Tube Bundles under Vertical Upward Cross-Flow Condition Using Wavelet Transform
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摘要 在小质量流速和流动沸腾条件下,对R134a工质垂直向上横掠水平光滑管束的汽液两相流型进行了实验研究,实验的质量流速范围为4~25kg/(m^2·s),质量干度范围为0.02~0.90.通过对各流型下的压差脉动信号进行离散小波分析,得到了各流型下压差脉动信号的尺度能量分布特征,并以尺度能量分布为特征矢量建立了流型辨识的规则.研究结果表明,该方法能够较好地鉴别泡状流、块状流和环状流3种主要流型. This paper presented a wavelet-transform based approach for flow pattern identification in horizontal tube bundles under vertical upward cross-flow condition. Tests on two-phase flow patterns of R134a were conducted under low mass velocity and flow boiling conditions over the ranges of mass flux 4- 25 kg/(m^2 · s), vapor quality 0.02-0.90. Time series of differential pressure fluctuations were measured and analyzed with discrete-wavelet transform. Different time-scale characteristics in bubbly flow, churn flow and annular flow were obtained. The wavelet energy distributions over scales are found to be appropriate for flow pattern identification. Based on the characteristic vector of wavelet energy distribution over scales, a criterion of flow pattern identification was proposed. The comparison with experimental results shows that it is feasible to use the discrete wavelet transform as the tool of flow pattern identification in horizontal tube bundles under vertical upward cross-flow condition.
作者 黄兴华 王利 贾峰
机构地区 上海交通大学机械与动力工程学院
出处 《上海交通大学学报》 EI CAS CSCD 北大核心 2007年第3期337-341,346,共6页 Journal of Shanghai Jiaotong University
基金 上海市科委基础研究重点资助项目(02DJ14043)
关键词 水平管束 两相流型 小波变换 流型辨识 horizontal tube bundles two-phase flow wavelet transform flow pattern identification
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7

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  • 1黄兴华,王启杰,王如竹.基于分布参数模型的满液式蒸发器性能模拟[J].上海交通大学学报,2004,38(7):1164-1169. 被引量:11
  • 2Gong Chen,Proc FLOMEKO,1996年
  • 3崔锦泰,An Introduction to Wavelets,1992年
  • 4李海青,两相流参数检测与应用,1991年
  • 5Browne M W, Bansal P K. Heat transfer characteristics of boiling phenomenon in flooded refrigerant evaporators[J]. Applied Thermal Engineering.1999, 19:595-624.
  • 6Sergio Casciaro, Tome J R. Thermal performance of flooded evaporators, part 1: review of boiling heat transfer studies [J]. ASHRAE Transactions, 2001,107(1) :903-918.
  • 7Webb R L, Choi K D, Apparao T R. A theoretical model for prediction of the heat load in flooded refrigerant evaporators [J]. ASHRAE Transactions,1989, 95(1):326-338.
  • 8Webb R L, Apparao T V V R, Choi K D. Prediction of the heat duty in flooded refrigerant evaporators[J]. ASHRAE Transactions, 1989, 95(1): 339-348.
  • 9Webb R L, Apparao T V V R. Performance of flooded refrigerant evaporators with enhanced tubes[J]. Heat Transfer Engineering, 1990, 11 (2): 29-43.
  • 10Webb R L, Pals C. Nucleate boiling data for five refrigerants on plain, integral-fin and enhanced tube geometries[J]. Int J Heat and Mass Transfer, 1992,35(8) : 1893-1904.

共引文献43

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上海交通大学学报
2007年 第3期

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