Mechanism of the Initial Phenomena of Defluidization Caused by Switching Fluidizing Gases

Abstract: In a uidized bed, particle agglomeration and channeling have been observed when the uidizing gas is switched from lower to higher density. This de uidization is a transient phenomenon, and uidization is restored after several minutes. In this paper, we assume this behavior can be explained by non-equimolar di usion, which causes pressure gradients in the bed and subsequently leads to viscous ow. To verify this assumption, pressure changes were measured for several binary di usion systems in a packed bed. After… Show more

“…Comparison of maximum pressure change during isovolumetric diffusion: Observations byKai et al (2014) and calcu-…”

A Model for Non-Equimolar Binary Gas Diffusion through Pores in the Region of Molecular Diffusion

“…Comparison of maximum pressure change during isovolumetric diffusion: Observations byKai et al (2014) and calcu-…”

A Model for Non-Equimolar Binary Gas Diffusion through Pores in the Region of Molecular Diffusion

“…"Mechanism of the Initial Phenomena of De uidization Caused by Switching Fluidizing Gases" by Takami Kai, Yuki Hirano, Tsutomu Nakazato, and Kei Mizuta, Kagoshima University (Kai et al, 2014) Citation: In this paper, the authors have proposed a model using the unsteady-state diffusion equation and KozenyCarman equation to study transient defluidization that occurs after the fluidizing gas is switched to another gas, and showed that experimental pressure changes for a binary diffusion system in a packed bed could be well predicted by the model without the inclusion of any adjustable parameters. This result confirms that the defluidization is caused by non-equimolar gas exchange between the bubble and the emulsion phases.…”

JCEJ Outstanding Paper Award of 2014

Experimental study on defluidization behaviours and its influence factors during gas switching fluidization