IDENTIFICATION OF GAS LIQUID FLOW REGIMES IN A HORIZONTAL FLOW USING NEURAL NETWORK 被引量：2

IDENTIFICATION OF GAS LIQUID FLOW REGIMES IN A HORIZONTAL FLOW USING NEURAL NETWORK

导出

摘要 The knowledge of flow regimes is very important in the study of a two phase flow system. A new flow regime identification method based on a Probability Density Function (PDF) and a neural network is proposed in this paper. The instantaneous differential pressure signals of a horizontal flow were acquired with a differential pressure sensor. The characters of differential pressure signals for different flow regimes are analyzed with the PDF. Then, four characteristic parameters of the PDF curves are defined, the peak number (K 1 ), the maximum peak value (K 2 ), the peak position (K 3 ) and the PDF variance (K 4 ). The characteristic vectors which consist of the four characteristic parameters as the input vectors train the neural network to classify the flow regimes. Experimental results show that this novel method for identifying air water two phase flow regimes has the advantages with a high accuracy and a fast response. The results clearly demonstrate that this new method could provide an accurate identification of flow regimes. The knowledge of flow regimes is very important in the study of a two phase flow system. A new flow regime identification method based on a Probability Density Function (PDF) and a neural network is proposed in this paper. The instantaneous differential pressure signals of a horizontal flow were acquired with a differential pressure sensor. The characters of differential pressure signals for different flow regimes are analyzed with the PDF. Then, four characteristic parameters of the PDF curves are defined, the peak number (K 1 ), the maximum peak value (K 2 ), the peak position (K 3 ) and the PDF variance (K 4 ). The characteristic vectors which consist of the four characteristic parameters as the input vectors train the neural network to classify the flow regimes. Experimental results show that this novel method for identifying air water two phase flow regimes has the advantages with a high accuracy and a fast response. The results clearly demonstrate that this new method could provide an accurate identification of flow regimes.

作者 JIAZhi-hai NIUGang WANGJing

机构地区 SchoolofMechanicalandPowerEngineering.ShanghaiJiaotongUniversity.Shanghai

出处《Journal of Hydrodynamics》 SCIE EI CSCD 2005年第1期66-73,共8页 水动力学研究与进展B辑（英文版）

基金 Project supported by the National High Technology and Research Development Program Special Fund of China (GrantNo: 2002AA616050).

关键词 flow regime identification Probability Density Function (PDF) neural network two-phase flow flow regime flow regime identification, Probability Density Function (PDF), neural network, two-phase flow, flow regime

分类号 O359.1 [理学—流体力学] TP183 [自动化与计算机技术—控制理论与控制工程]

引文网络
相关文献

参考文献13

1TUTU N. K. Pressure fluctuations and flow regime recognition in vertical two-phase gas-liquid flows[J]. Int.J. Multiphase Flow, 1982, 8(4): 443-447.
2MATSUI G. Identification of flow regimes in vertical gas-liquid two-phase flow using differential pressure fluctuations[J]. Int. J. Multiphase Flow, 1984, 10(6):711-720.
3MATSUI G. Automatic identification of flow regime in vertical two-phase flow using differential pressure fluetuations[J]. Nuclear Engineering and Design, 1986, 95:221-231.
4WU Hao-jiang, ZHOU Fang-de, WU Yu-yuan. Intelligent identification system of flow regime of oil-gas-water multiphase flow[J]. Int. J. Multiphase Flow, 2001, 27(3) : 459-475.
5JONES O. C. , ZUBER N. The interrelation between void fraction fluctuations and flow patterns in two-phase flow[J]. Int. J. Multiphase Flow, 1975, 2 (3) : 273-306.
6VINCE M. A. , LAHEY R. T. On the development of an objective flow regime indicator[J]. Int. J. Multi-phase Flow, 1982, 8(12):93-124.
7COSTIGAN G. , WHALLEY P.B. Slug flow regime identification from dynamic void fraction measurements in vertical aiwwater flows[J]. Int. J. Multiphase Flow,1997, 23(2) : 263-282.
8LEFTERI H. , TSOUKAI.AS Mamoru Ishii and MI Y.A neurofuzzy methodology for impedance-based multiphase flow identification[J]. Eng. Appl. Artif. lntel.,1997, 10( 6): 545- 555.
9MISHIMA K. , ISHII M. Flow regime transition criteria for upward two-phase flow in vertical tubes[J]. Int.J. Heat Mass Transfer,1983, 27: 723-737.
10LOWED. C. , REZKALLAH K.S. Flow regime identification in microgravity two-phase flows using void fraction signals[J]. Int. J. Multlphase Flow,1999, 25(3)433 -457.

同被引文献25

1孙斌,周云龙.基于支持向量机和小波包能量特征的气液两相流流型识别方法[J].中国电机工程学报,2005,25(17):93-99. 被引量：48
2周云龙,孙斌.基于神经网络和D-S证据理论的气液两相流流型识别方法[J].化工学报,2006,57(3):607-613. 被引量：19
3孙斌,张宏建,程路,赵玉晓.Flow Regime Identification of Gas-liquid Two-phase Flow Based on HHT[J].Chinese Journal of Chemical Engineering,2006,14(1):24-30. 被引量：11
4胡志华,杨燕华,刘磊,周芳德.垂直上升管内有水平柱体时气液两相局部流型转变的研究[J].Chinese Journal of Chemical Engineering,2006,14(4):442-449. 被引量：4
5金宁德,董芳,赵舒.气液两相流电导波动信号复杂性测度分析及其流型表征[J].物理学报,2007,56(2):720-729. 被引量：36
6马龙博,张宏建,周洪亮,贺庆.基于Hilbert-Huang变换和支持向量机的油水两相流流型识别[J].化工学报,2007,58(3):617-622. 被引量：10
7金宁德,郑桂波,陈万鹏.气液两相流电导波动信号的混沌递归特性分析[J].化工学报,2007,58(5):1172-1179. 被引量：23
8Zhong W Q, Wang X F, Li Q J, Jin B S, Zhang M Y, Xiao R, Huang Y J. Analysis on chaotic nature of a pressurized spout-fluid bed by information theory based Shannon entropy. Canadian Journal of Chemical Engineering, 2009, 87 (2): 220 227.
9Ha Y J, Ltu Z C, Hanratty T J. A backlighted imaging technique for particle size measurements in two phase flows. Experiments in Fluids, 1998, 25:226-232.
10Tang X O, Stewart W. Optical and sonar image classification : wavelet packet transform vs Fourier transform. Computer Vision and Image Understanding, 2000, 7 (9): 25 46.

引证文献2

1周云龙,陈飞,孙斌.Identification Method of Gas-Liquid Two-phase Flow Regime Based on Image Multi-feature Fusion and Support Vector Machine[J].Chinese Journal of Chemical Engineering,2008,16(6):832-840. 被引量：6
2李洪伟,周云龙,宋倩,孙斌,杨悦.水平气液两相流流型图像信息递归特征分析[J].化工学报,2010,61(6):1431-1436. 被引量：13

二级引证文献19

1华陈权,王昌明,耿艳峰,石天明.Noninvasive Flow Regime Identification for Wet Gas Flow Based on Flow-induced Vibration[J].Chinese Journal of Chemical Engineering,2010,18(5):795-803.
2洪文鹏,刘燕.二相绕流流动特性的相关性和复杂性分析[J].化学工程,2011,39(1):49-52.
3孙斌,王二朋,丁洋,白宏震,黄咏梅.Time-Frequency Signal Processing for Gas-Liquid Two Phase Flow Through a Horizontal Venturi Based on Adaptive Optimal-Kernel Theory[J].Chinese Journal of Chemical Engineering,2011,19(2):243-252. 被引量：9
4周云龙,李洪伟,杨悦.气液两相流图像区域相似值序列的混沌特性研究[J].中国电机工程学报,2011,31(20):88-94. 被引量：1
5洪文鹏,周云龙,刘燕.管束间压差波动信号的递归特性分析[J].中国电机工程学报,2011,31(23):74-78. 被引量：3
6周云龙,刘旭,李洪伟.2种熵测度在分析流型信号复杂度上的应用[J].化学工程,2011,39(8):53-56. 被引量：4
7高启君,吴丹,武春瑞,陈华艳,贾悦,王暄,吕晓龙.膜鼓气／吸收法连续脱溴过程[J].化工学报,2011,62(10):2791-2796. 被引量：4
8洪文鹏,刘燕,周云龙.气液两相流流型图像信息熵递归特性分析[J].热能动力工程,2011,26(5):538-542. 被引量：2
9李洪伟,周云龙,任素龙,杨悦.符号动力学信息熵在气液两相流型电导信号分析中的应用[J].化工学报,2012,63(11):3486-3492. 被引量：7
10张小斌,姚蕾,邱利民,张学军.Three-dimensional Computational Fluid Dynamics Modeling of Two-phase Flow in a Structured Packing Column[J].Chinese Journal of Chemical Engineering,2013,21(9):959-966. 被引量：4

1HOWISON S. D.,LACEY A. A.,OCKENDON J. R..Partial Differential Equations that are Hard to Classify[J].Journal of Partial Differential Equations,2012,25(1):41-65.
2马宇川.突出性价比华擎玩家至尊Z170Caming K4主板[J].微型计算机,2015,0(30):54-54.
3孙明,D.BOROCILO,G.D.HARVEL,M.IBE,H.MATSUBARA,P.FANSON,H.HIRATA,J.S.CHANG.Two-Phase Flow Regimes and Discharge Characteristics of a Plasma Electrohydrodynamic Atomization[J].Plasma Science and Technology,2011,13(1):73-76. 被引量：1
4Esmaeil Dehdashti.Development of a new correlation to calculate permeability for flows with high Knudsen number[J].Chinese Physics B,2016,25(2):271-277.
5YANG Jian, ZHANG Ming-Yuan, ZHANG Chao-Jie, SU Yu-Liang (The State Key Lab of Multiphase Flow in Power Engineering, Xi ’an Jiaotong University, Xi ’an 710049).Liquid mean velocity and turbulence in a horizontal air-water bubbly flow[J].Nuclear Science and Techniques,2003,14(2):149-152.
6HUBACZ Robert.Classification of flow regimes in gas-liquid horizontal Couette-Taylor flow using dimensionless criteria[J].Journal of Hydrodynamics,2015,27(5):773-781.
7Jiyu Zhang Fengxiang Tang.PREDICTION OF FLOW REGIMES IN SPOUT-FLUIDIZED BEDS[J].China Particuology,2006,4(3):189-193. 被引量：1
8高忠科,胡沥丹,金宁德.Markov transition probability-based network from time series for characterizing experimental two-phase flow[J].Chinese Physics B,2013,22(5):226-231. 被引量：1
9Hao CHEN Liqing XU.Greedy Algorithm Computing Minkowski Reduced Lattice Bases with Quadratic Bit Complexity of Input Vectors[J].Chinese Annals of Mathematics,Series B,2011,32(6):857-862.
10NINGLi-zhong,YOSHIFUMIHarada,HIDEOYahata,LIJian-zhong.HE SPATIO-TEMPORAL STRUCTURE OF BINARY FLUID CONVECTION WITH HORIZONTAL FLOW[J].Journal of Hydrodynamics,2004,16(2):151-157. 被引量：30

Journal of Hydrodynamics

2005年第1期

浏览历史

内容加载中请稍等...

IDENTIFICATION OF GAS LIQUID FLOW REGIMES IN A HORIZONTAL FLOW USING NEURAL NETWORK 被引量：2

参考文献13

同被引文献25

引证文献2

二级引证文献19

相关作者

相关机构

相关主题

浏览历史