Vibration time series analysis of bubbling and turbulent fluidization

详细信息    查看全文

• 作者：Hedayat Azizpour ; Rahmat Sotudeh-Gharebagh ; Reza Zarghami ; ^{rzarghami@ut.ac.ir} ; Navid Mostoufi
• 关键词：Fluidization ; Auto correlation function ; Mutual information function ; Hurst exponent ; Vibration signal
• 刊名：Particuology
• 出版年：2012
• 出版时间：June, 2012
• 年：2012
• 卷：10
• 期：3
• 页码：292-297
• 全文大小：618 K

文摘

A non-intrusive vibration monitoring technique was used to study the hydrodynamics of a gas-solid fluidized bed. Experiments were carried out in a 15 cm diameter fluidized bed using 226, 470 and 700 ¦Ìm sand particles at various gas velocities, covering both bubbling and turbulent regimes. Auto correlation function, mutual information function, Hurst exponent analysis and power spectral density function were used to analyze the fluidized bed hydrodynamics near the transition point from bubbling to turbulent fluidization regimes. The first pass of the autocorrelation function from one half and the time delay at which it becomes zero, and also the first minimum of the mutual information, occur at a higher time delay in comparison to stochastic systems, and the values of time delays were maximum at the bubbling to turbulent transition gas velocity. The maximum value of Hurst exponent of macro structure occurred at the onset of regime transition from bubbling to turbulent. Further increase in gas velocity after that regime transition velocity causes a decrease in the Hurst exponent of macro structure because of breakage of large bubbles to small ones. The results showed these methods are capable of detecting the regime transition from bubbling to turbulent fluidization conditions using vibration signals.