Elsevier

Ultrasonics Sonochemistry

Volume 52, April 2019, Pages 157-163
Ultrasonics Sonochemistry

Effect of geometrical configuration of reactor on a ZrP nano-dispersion process using ultrasonic irradiation

https://doi.org/10.1016/j.ultsonch.2018.11.008Get rights and content
Under a Creative Commons license
open access

Highlights

  • Effect of geometrical configuration on fragmentation rate was investigated.

  • The flat-bottom vessel at lower horn position showed the better performance.

  • The spherical bottom vessel was robust for the horn position.

  • The size of high acoustic pressure region is an important factor.

Abstract

This study investigated the position of ultrasonic irradiation source and reactor geometry on fragmentation rate of a layered compound, α-zirconium phosphate (α-ZrP). By numerically solving the acoustic pressure distribution using COMSOL Multiphysics®, it is clarified the mechanism whereby the operating factors influenced the α-ZrP dispersion to make a suggestion of guideline of the process design method. Two vessels made of glass with a flat-bottom and a spherical-bottom, respectively, were used. Although the flat-bottom vessel at lower horn position showed the best performance of fragmentation, the region of high acoustic pressure field in the flat bottom vessel sharply narrowed and the transmittance became prominently low. On the other hand, no significant difference of the transmittance value in the spherical bottom vessel between the cases of low and high horn positions could be observed and the spherical bottom vessel was robust for the horn position. These results suggest that not only the magnitude of acoustic pressure but also the size of high acoustic pressure region is also an important factor and a spherical bottom vessel is one of suitable shape which gives large size of high acoustic pressure region regardless of the horn position.

Keywords

Layered compound
Zirconium phosphate
Fragmentation rate
Geometrical configuration

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