Transient parameter analysis of pneumatic conveying of fine particles for predicting the change of mode of flow_中国颗粒学会

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Partic. vol. 32 pp. 82-88 (June 2017)
doi: 10.1016/j.partic.2016.07.004

Transient parameter analysis of pneumatic conveying of fine particles for predicting the change of mode of flow

Shijo J.S., Niranjana Behera*

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beheranira@rediffmail.com

Highlights

    • Variations of three parameters in response to flow mode change during conveying were evaluated. • The calculated parameter variations may help to trace location of flow mode change. • Of the three parameters, Shannon entropy analysis provided a better indication of flow mode change.

Abstract

During the process of pneumatic conveying of fine particles, the flow mode may change from dense to dilute. In studying this mode change, we evaluate three parameters (Hurst exponent, Shannon entropy, and phase-space attractor size) used in signal analysis. Experimental data of pneumatic conveying of fly ash at three locations along a 173-m-long pipeline were used for this analysis. Variations in magnitude of the Hurst exponent, Shannon entropy, and size of the phase space attractor exhibit different trends in their variations for dense and dilute mode of flow. From these trends it is possible to predict the change from dense to dilute mode and the location along the length of the pipeline of this change in mode of flow.

Graphical abstract

Keywords

Fluidized dense; Hurst exponent; Shannon entropy; Phase space



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