4.7 Article

Promotion effect of particle fluidization with ultrasonic vibration

Journal

POWDER TECHNOLOGY
Volume 400, Issue -, Pages -

Publisher

ELSEVIER
DOI: 10.1016/j.powtec.2022.117265

Keywords

Fluidization; Ultrasonic vibration; Particle diameter; Pipe diameter; Air velocity

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This study found that applying ultrasonic vibrations to a fluidized particle bed can reduce the minimum air velocity required for fluidization and pressure loss, with greater effects observed when using larger particles and smaller pipe diameters. However, fluidization of 40 μm particles remains challenging due to their inability to reduce cohesion among particles.
This work examined the effects of applying ultrasonic vibrations to a fluidized particle bed while varying the particle diameter, vibrational amplitude, pipe diameter and air flow rate. The bed was contained in a vibration pipe having eight antinodes, and the vibrational amplitudes were monitored using a laser Doppler vibrometer. Experiments using 100 and 250 mu m diameter particles showed that the minimum air velocity required for fluidization and the pressure loss were both reduced with increasing vibrational amplitude. The extent to which these parameters were reduced was greater in experiments with the 250 mu m particles and when using a pipe having a smaller diameter. In addition, the fluidization of 40 mu m particles was found to be challenging because they did not reduce the cohesion among the particles themselves. In general, ultrasonic vibration to promote particle bed fluidization is most beneficial in conjunction with a small sized pipe and larger particles.(c) 2022 Elsevier B.V. All rights reserved.

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