PRESSURE FLUCTUATIONS IN GAS-SOLIDS FLUIDIZED BEDS 被引量：3

PRESSURE FLUCTUATIONS IN GAS-SOLIDS FLUIDIZED BEDS

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摘要 Pressure fluctuation data measured in a series of fluidized beds with diameters of 0.05, 0.1, 0.29, 0.60 and 1.56 m showed that the maximum amplitude or standard deviation increased with increasing the superficial gas velocity and static bed height for relatively shallow beds and became insensitive to the increase in static bed height in relatively deep beds. The amplitude appeared to be less dependent on the measurement location in the dense bed. Predictions based on bubble passage, bubble eruption at the upper bed surface and bed oscillation all failed to explain all observed trends and underestimated the amplitude of pressure fluctuations, suggesting that the global pressure fluctuations in gas-solids bubbling fluidized beds are the superposition of local pressure variations, bed oscillations and pressure waves generated from the bubble formation in the distributor region, bubble coalescence during their rise and bubble eruption at the upper bed surface. Pressure fluctuation data measured in a series of fluidized beds with diameters of 0.05, 0.1, 0.29, 0.60 and 1.56 m showed that the maximum amplitude or standard deviation increased with increasing the superficial gas velocity and static bed height for relatively shallow beds and became insensitive to the increase in static bed height in relatively deep beds. The amplitude appeared to be less dependent on the measurement location in the dense bed. Predictions based on bubble passage, bubble eruption at the upper bed surface and bed oscillation all failed to explain all observed trends and underestimated the amplitude of pressure fluctuations, suggesting that the global pressure fluctuations in gas-solids bubbling fluidized beds are the superposition of local pressure variations, bed oscillations and pressure waves generated from the bubble formation in the distributor region, bubble coalescence during their rise and bubble eruption at the upper bed surface.

作者 Hsiaotao Bi

机构地区 Fluidization Research Centre

出处《China Particuology》 SCIE EI CAS CSCD 2003年第4期139-144,共6页

关键词 bubbling fluidized beds pressure fluctuations maximum pressure amplitude pressure waves scaleup effect bubbling fluidized beds, pressure fluctuations, maximum pressure amplitude, pressure waves, scaleup effect

分类号 TQ05 [化学工程]

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参考文献31

1[1]Alzahrani,A.A.& Noor Wali,M.M.(1993).A study of pressure drop fluctuations in a gas-solids fluidized bed.Powder Technol.,76,185-189.
2[2]Baeyens,J.& Geldart,D.(1974).An investigation into slugging fluidized beds.Chem.Eng.Sci.,29,255-265.
3[3]Baskakov,A.P.,Tuponogov,V.G.& Filippovsky,N.F.(1986).A study of pressure fluctuations in a bubbling fluidized bed.Powder Technol.,45,113-118.
4[4]Bi,H.T.& Grace,J.R.(1995).Effect of measurement method on velocities used to demarcate the transition to turbulent fluidization.Chem.Eng.J.,57,261-271.
5[5]Bi,H.T.,Grace,J.R.& Zhu,J.X.(1995).Propagation of pressure waves and forced oscillation of fluidized beds and their effects on measurements of local hydrodynamics.Powder Technol.,82,239-253.
6[6]Broadhurst,T.E.& Becker,H.A.(1976).Measurement and spectral analysis of pressure fluctuations in slugging beds.In Keairns,D.L.(Ed.),Fluidization Technology,Vol.2 (pp.63-84).Washington:Hemisphere Publishing Corp.
7[7]Cai,P.(1989).The Transition of Flow Regime in Dense Phase Gas-Solid Fluidized Bed.Ph.D.thesis,Tsinghua University,Beijing,China.
8[8]Cai,P.,Jin,Y.,Yu,Z.Q.& Zhou,C.Z.(1986).Measurement of the transmissive velocity of elastic waves in gas-solid fluidized bed.J.Chem.Eng.Chinese Universities,1,87-90.(in Chinese)
9[9]Davidson,J.F.(1961).Symposium on Fluidization-Discussion.Trans.Instn.Chem.Engrs.,39,230-232.
10[10]Davidson,J.F.(1968).Rapporteur's Report,Tripartite Chem.Eng.Conf.Symposium on Fluidization (p.3).Montreal,Inst.of Chem.Engrs.,London.

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2陈永国,田子平,缪正清.循环流化床压力波动信号的局部奇异性检测[J].中国电机工程学报,2004,24(8):185-189. 被引量：12
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4Subramanian G, Turton R, Sheluker S, et al. Effect of tablet deflectors in the draft tube of fluidized/spouted bed eoaters [J]. Ind Eng Chem Res, 2003, 42 (12) : 2470-2478.
5Jumah R Y. Flow and drying characteristics of a rotating jet spouted bed [J]. Drying Teehnol, 1995, 13 (8-9): 2243-2250.
6Devahastin S, Mujumdar A S, Raghavan G S V. Hydrodynamic characteristics of a rotating jet annular spouted bed [J]. Powder Technol, 1999, 103 (2): 169-174.
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PRESSURE FLUCTUATIONS IN GAS-SOLIDS FLUIDIZED BEDS 被引量：3

参考文献31

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