Syed Sadiq Ali scite author profile

Deagglomeration of ultrafine powders poses an important challenge towards their efficient and effective utilization. In the present study, we investigate the effect of frequency on the hydrodynamics of pulsed fluidized beds of ultrafine powders that show strong agglomeration behavior. We have carefully selected square waves of three different frequencies: 0.05 Hz, 0.10 Hz, and 0.25 Hz. The lowest frequency used here allowed the fluidized bed to settle completely before another pulse was introduced whilst the highest frequency ensured that the bed remained in a state of continuous turbulence between occurrences of consecutive pulses. On the other hand, the intermediate frequency pulse was just sufficient to complete the process of bed collapse before the start of the next pulse. Both local and global bed dynamics in all the three cases were rigorously monitored using fast response pressure transducers. The pressure transient data during the bed collapse were processed using the bed collapse model reported in the literature to compute the effective hydrodynamic diameter of agglomerates. Though there was substantial decrease in the agglomerate size, the effect of the frequency appeared to be rather insignificant as the global pressure transients remained rather insensitive to the change of the fluidization velocity.

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Bed collapse behavior of pulsed fluidized beds of nano-powder

Ali

Asif

Ajbar

2014

Advanced Powder Technology

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Effect of particle mixing on the hydrodynamics of fluidized bed of nanoparticles

Ali

Asif

2017

Powder Technology

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Syed Sadiq Ali

Fluidization of nano-powders: Effect of flow pulsation

Fluidization of nano-powders: Effect of sound vibration and pre-mixing with group A particles

Effect of Frequency on Pulsed Fluidized Beds of Ultrafine Powders

Bed collapse behavior of pulsed fluidized beds of nano-powder

Effect of particle mixing on the hydrodynamics of fluidized bed of nanoparticles

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