Optics and Precision Engineering, Volume. 27, Issue 11, 2484(2019)
Extraction for HHT features of pressure vibration signals of oil pulsating flow with different particle concentration
[1] [1] PAN Y, BANERJEE S. Numerical simulation of particle interactions with wall turbulence[J].Physics of Fluids, 1996, 8(10): 2733-2755.
[2] [2] CROWE C T, GORE R A, TROUTT T R. Particle dispersion by coherent structures in free shear flows[J]. Particulate Science & Technology, 1985,3(3): 149-158.
[3] [3] HELLEST A S, GHAFFARI M, BALAKIN B V, et al.. A parametric study of cohesive particle agglomeration in a shear flow. Numerical simulations by the discrete element method[J]. Journal of Dispersion Science & technology, 2016. 38(5): 611-620
[4] [4] DRITSELIS C D, VLACHOS N S. Numerical study of educed coherent structures in the near-wall region of a particle-laden channel flow[J]. Physics of Fluids, 2008. 20(5): 69
[5] [5] BIZHAEM H K, TABRIZI H B. Investigating effect of pulsed flow on hydrodynamics of gas-solid fluidized bed using two-fluid model simulation and experiment[J]. Powder Technology, 2017, 237(3): 14-23
[6] [6] M RASHIDI, G HETSRONI, S BANERJEE. Pariticle turbulence interaction in a boundary layer[J]. International Journal of Multiphase Flow, 1990, 16(6): 935-949.
[7] [7] HUSSAIN A K M F, REYNOLDS W C. The mechanics of an organised wave in a turbulent shear flow[J]. J. Fluid Mech, 1972,54(5): 263-288.
[8] [8] AHRENS C, RONNEBERGER D. Luftschall damepfung in turbulent durchstromten schallharton Rohren bei verschidenen Wandrauhigkeiten[J].Acoustica, 1971,(25): 150-157.
[9] [9] RONNEBERGER D, AHERENS C D. Wall shear stress caused by small amplitude perturbations of turbulent boundary-layer flows: an experimental investigation[J].J.Fluid. Mech,1977,83 (3): 433-464.
[10] [10] GERRARD J H. An experimental investigation of pulsating turbulent water flow in a tube[J]. J. Fluid Mech, 2006, 46 (1): 43-64.
[11] [11] RAMAPRIAN B R, TU S W. An experimental study of oscillatory pipe flow at transitional Reynolds numbers[J]. J. Fluid Mech, 2006, 100 (3): 513-544.
[12] [12] TU S W, RAMAPRIAN B R. Fully developed periodic turbulent pipe flow. Part 1. Main experimental results and comparison with predictions[J]. J. Fluid Mech, 2006,137(137): 31-58.
[13] [13] TARDU S, BINDER G, BLACKWELDER R F. Turbulent channel flow with largeamplitude velocity oscillations[J]. J. Fluid Mech, 2006,267(267): 109-151.
[14] [14] TARDU S F, BINDER G. Wall shear stress modulation in unsteady turbulent channel flow with high imposed frequencies[J]. Phys. Fluids A, 2002,5(2): 2028-2037.
[15] [15] BINDER G, TARDU J, VEZIN P. Cyclic modulation of Reynolds stresses and length scales in pulsed turbulent channel flow[J]. Proc Roy. Soc. London Ser. A, 1995,451(1941): 121-139.
[16] [16] TARDU S, BINDER G. Reaction of bursting to an oscillating homogeneous pressure gradient[J]. Eur. J. Mech. B/Fluids, 1997,16 (1): 89-120.
[17] [17] TARDU S F, COSTA P D. Experiments and modelling of an unsteady turbulent channel flow[J]. AIAA J, 2005,43(43): 140-148.
[20] [20] HUANG N E, CHEN X, LO M, et al.. On hilbert spectral representation: a true time-frequency representation for nonlinear and nonstationary data[J]. Advances in Adaptive Data Analysis, 2011,3(01): 63-93.
[21] [21] LIU Z, MAO H X, DAI C M, et al.. Heterogeneous sensors faint targets data association based on multi-feature fusion[J]. Infrared and Laser Engineering, 2019, 48 (5): 526001-0526001. (in Chinese)
[22] [22] DONG H SH, ZHANG A H,QIU T SH, et al.. Time frequency analysis method of heart rate variability signal based on the Hilbert spectrum[J].Chinese Journal of Scientific Instnxnent,2011,32(2): 271-278. (in Chinese)
[23] [23] BIN S, HONGJIAN Z, LU C, et al.. Flow regime identification of gas-liquid two-phase flow based on HHT[J]. Chinese J. Chem. Eng., 2006, 14(1): 24-30.
[24] [24] ZHOU Y L, ZHANG X Q, ZHANG S L. Applied study on flow regime identification of gas-liquid two-phase flow based on Hilbert-Huang transform and HMM[J]. Chinese Journal of Scientific Instnxnent, 2009,30(7): 1512-1517. (in Chinese)
[25] [25] XU P P, LIU J, MA F, et al.. Analysis methods for flow pressure signals in oscillation cavity of a self-resonating jet nozzle[J].Journal vibration and shock, 2015,34(17): 180-184. (in Chinese)
[26] [26] QU W L,LIU S B, WANG J W, et al.. HHT Analysis of Stochastic Fluctuant Pressure for Flow-induced Vibration in Radial Gate[J]. Journal of wuhan university of technology, 2006,28(9): 68-71. (in Chinese)
[27] [27] LU P, LI W, ZHENG X, et al.. Experimental research and HHT analysis on the flow characteristics of pneumatic conveying under high pressure[J]. Applied Thermal Engineering, 2016,108: 502-507.
[28] [28] ZHAO K, ZHONG ZH P, WANG X Y, et al.. Pressure fluctuation signal analysis of two-component biomass and quartz sand particles based on Hilbert-Huang transform in fluidized-bed[J]. Journal of Chemical Engineering, 2015,66(4): 1282-1289. (in Chinese)
[29] [29] LI J, WANG H, LIU Z, et al.. An experimental study on turbulence modification in the near-wall boundary layer of a dilute gas-particle channel flow[J]. Experiments in Fluids,2012,53(5): 1385-1403.
Get Citation
Copy Citation Text
CHEN Bin, LIU Ge. Extraction for HHT features of pressure vibration signals of oil pulsating flow with different particle concentration[J]. Optics and Precision Engineering, 2019, 27(11): 2484
Category:
Received: Apr. 30, 2019
Accepted: --
Published Online: Jan. 7, 2020
The Author Email: