参考文献/References:
[1] Laouar S,Molodtsof Y.Experimental characterization of the pressure drop in dense phase pneumatic transport at very low velocity[J].Powder Technology,1998,95(2):165-173.
[2] Jama G A,Klinzing G E,Rizk F.Investigation of the prevailing flow patterns and pressure fluctuation near the pressure minimum and unstable conveying zone of pneumatic transport systems[J].Powder Technology,2000,112(1):87-93.
[3] Wypych P W,Yi J.Minimum transport boundary for horizontal dense-phase pneumatic conveying of granular materials[J]. Powder Technology,2003,129(1-3):111-121.
[4] Ellis N,Briens L A,Grace J R,et al.Characterization of dynamic behaviour in gas-solid turbulent fluidized bed using chaos and wavelet analyses[J]. Chemical Engineering Journal,2003,96(1-3):105-116.
[5] Herbreteau C,Bouard R.Experimental study of parameters which influence the energy minimum in horizontal gas-solid conveying[J].Powder Technology,2000,112(3):213-220.
[6] Bai D,Shibuya E,Nakagawa N,et al.Characterization of gas fluidization regimes using pressure fluctua-tions[J].Powder Technology,1996,87(2):105-111.
[7] Li J,Kuipers J A M.Gas-particle interactions in dense gas-fluidized beds[J].Chemical Engineering Science,2003,58(3-6):711-718.
[8] Li H.Application of wavelet multi-resolution analysis to pressure fluctuations of gas-solid two-phase flow in a horizontal pipe[J]. Powder Technology,2002,125(1):61-73.
[9] Lu Xuesong,Li Hongzhong.Wavelet analysis of pressure fluctuation signals in a bubbling fluidized bed[J].Chemical Engineering Journal,1999,75(2):113-119.
[10] 陈珙,王保良,杨江,等.小波变换识别流型的一种新法研究[J].仪器仪表学报,1999,20(2):117-120.
Chen Gong,Wang Baoliang,Yang Jiang,et al.Flow regimes identification in horizontal pipe using wavelet transform[J]. Chinese Journal of Scientific Instrument,1999,20(2):117-120.(in Chinese)
[11] Li H,Tomita Y.Particle velocity and concentration characteristics in a horizontal dilute swirling flow pneumatic conveying [J]. Powder Technology, 2000,107(1,2):144-152.
[12] Zhong Wenqi,Zhang Mingyao.Pressure fluctuation frequency characteristics in a spout-fluid bed by modern ARM power spectrum analysis[J].Powder Technology,2005,152(3):52-61.
[13] Dhodapkar S,Klinzing G E.Pressure fluctuations in pneumatic conveying systems [J].Powder Technology,1993,74(2):179-195.
[14] Dhodapkar S V,Klinzing G E.Pressure fluctuations in pneumatic conveying systems[J].National Conference Publication-Institution of Engine,1992,1(92):29-34.
[15] 赵贵兵,李天铎,阳永荣,等.气固两相流压力波动信号分析[J].中国粉体技术,2001,7(3):6-10.
Zhao Guibing,Li Tianduo,Yang Rongrong,et al.Analysis components of pressure fluctuation in gas solid fluidized bed[J].China Powder Science and Technology,2001,7(3):6-10.(in Chinese)
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