Paper Title

Sono-crystallization kinetics of K2SO4: Estimation of nucleation, growth, breakage and agglomeration kinetics

Authors

Profile picture of Aniruddha Bhalchandra Pandit
Aniruddha Bhalchandra Pandit

Keywords

  • Sono-Crystallization
  • Crystallization Kinetics
  • Potassium Sulfate
  • K2SO4
  • Ultrasound-Assisted Crystallization
  • Ultrasonic Horn
  • Nucleation Rate
  • Crystal Growth
  • Breakage Kinetics
  • Agglomeration Kinetics
  • Metastable Zone Width
  • MSZW
  • Induction Time Reduction
  • Crystal Size Distribution
  • CSD
  • Population Balance Equations
  • PBE
  • Kinetic Parameter Estimation
  • Conventional Crystallization
  • Sonocrystallization
  • Process Intensification
  • Ultrasound Frequency
  • Cavitation Effect
  • Supersaturation
  • Crystallization Modeling
  • Industrial Crystallization
  • Fine Chemicals
  • Particle Engineering
  • Advanced Materials Processing

Journal

Ultrasonics Sonochemistry External link

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DOI

DOI Icon 10.1016/j.ultsonch.2016.09.018

Publication Info

Volume: 35 | Pages: 196-203

Published On

March, 2017

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Abstract

Application of ultrasound in crystallization has showed improved process characteristics. Although several attempts have been made in the past to study the sono-crystallization kinetics, only nucleation and crystal growth were considered, neglecting breakage and agglomeration of crystals. In this study, an attempt is made for the estimation of the kinetic parameters of all the phenomena occurring simultaneously during sono-crystallization. For this, both conventional and ultrasonic crystallization of K2SO4-water system has been reported. Sono-crystallization experiments were carried out using ultrasonic horn operating at 20 kHz frequency. Reduction in the induction time, reduction in metastable zone width (MSZW), narrowing of crystal size distribution (CSD) were the key observations of sono-crystallization experiments. Population balance equations (PBE) were used to model the crystallization system and the various kinetic parameters have been estimated. The kinetic parameters obtained for conventional crystallization and sonocrystallization were compared. The estimated parameters suggest an increase in nucleation and breakage rate during sono-crystallization. Growth rates were observed to be of the same order of magnitude for both conventional and sonocrystallization. While agglomeration during sono-crystallization was found to be negligible.

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