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Dynamic characteristics of bubbling fluidization through recurrence rate analysis of pressure fluctuations 被引量:5

Dynamic characteristics of bubbling fluidization through recurrence rate analysis of pressure fluctuations
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摘要 Pressure fluctuations signals of a lab-scale fiuidized bed (15 cm inner diameter and 2 m height) at different superficial gas velocities were measured. Recurrence plot (RP) and recurrence rate (RR), and the simplest variable of recurrence quantification analysis (RQA) were used to analyze the pressure signals. Different patterns observed in RP reflect different dynamic behavior of the system under study. It was also found that the variance of RR (a2R) Could reveal the peak dominant frequencies (PDF) of different dynamic systems: completely periodic, completely stochastic, Lorenz system, and fluidized bed. The results were compared with power spectral density. Additionally, the diagram of σ^2RR provides a new technique for prediction of transition velocity from bubbling to turbulent fluidization regime. Pressure fluctuations signals of a lab-scale fiuidized bed (15 cm inner diameter and 2 m height) at different superficial gas velocities were measured. Recurrence plot (RP) and recurrence rate (RR), and the simplest variable of recurrence quantification analysis (RQA) were used to analyze the pressure signals. Different patterns observed in RP reflect different dynamic behavior of the system under study. It was also found that the variance of RR (a2R) Could reveal the peak dominant frequencies (PDF) of different dynamic systems: completely periodic, completely stochastic, Lorenz system, and fluidized bed. The results were compared with power spectral density. Additionally, the diagram of σ^2RR provides a new technique for prediction of transition velocity from bubbling to turbulent fluidization regime.
出处 《Particuology》 SCIE EI CAS CSCD 2013年第3期282-287,共6页 颗粒学报(英文版)
基金 Supports from the Iran National Science Foundation(INSF) in lran(No.91001766)
关键词 Pressure fluctuations Fluidization Recurrence rate Peak dominant frequency Transition velocity Power spectral density Pressure fluctuations Fluidization Recurrence rate Peak dominant frequency Transition velocity Power spectral density
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