Use of enantiomeric properties of sodium chlorate to assess primary and secondary nucleation under sonication

Copithorne-Crainey, Conor W.; Armstrong, Fraser J.; Bussemaker, Madeleine; Lee, Judy

doi:10.1016/j.ultsonch.2021.105763

Cited by 4 publications

(1 citation statement)

References 66 publications

(119 reference statements)

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“…Considering the complexity of ultrasonic cavitation and the uncertainty of the primary nucleation process, although there have been numerous studies investigating the impact of ultrasound on the crystallization process, the detailed mechanisms involved are still unclear. 99 Furthermore, ultrasound can not always induce primary nucleation which becomes unstable at higher ultrasound energy. Therefore, further research into the mechanisms of ultrasound-induced primary nucleation is essential to predict the optimal ultrasonic irradiation and supersaturation conditions.…”

Section: Assisted Nucleation Controlmentioning

confidence: 99%

Advances and Opportunities Concerning Nucleation Measurement and Control Technology in Crystallization

Zhang,

Meng,

Long

et al. 2024

Org. Process Res. Dev.

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Nucleation as a unique phenomenon in the crystallization process has always been a hot topic. With the development of nucleation theory and process analysis technology (PAT), nucleation control technology (NCT) has been widely applied in industrial crystallization processes. This paper provides a comprehensive review of advancements in nucleation measurement and control technologies within crystallization processes, systematically analyzing the principles, advantages, disadvantages, and application scopes of various NCTs, and particularly the factors affecting nucleation and nucleation-assisted technologies, including ultrasound, gassing, and membranes, are elaborated. These technologies are crucial for managing the unpredictable nature of nucleation to improve the consistency and quality of crystalline products. These advanced or novel control technologies are very attractive in providing continuous and stable high-purity seeds without externally adding additional seeds and have proven to be effective alternative methods for generating internal seeds. In addition, the challenges and opportunities were pointed out from the stability, controllability, and consistency of nucleation to promoting the efficient development of crystallization technology. NCTs play a vital role in industrial applications by ensuring control over the size, purity, and morphology of crystals. This review also explains the application of NCTs in industrial scenarios, positioning these technologies as essential for the advancement of various industrial applications.

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Section: Assisted Nucleation Controlmentioning

confidence: 99%

Advances and Opportunities Concerning Nucleation Measurement and Control Technology in Crystallization

Zhang,

Meng,

Long

et al. 2024

Org. Process Res. Dev.

View full text Add to dashboard Cite

show abstract

Kinetic properties of solventing out crystallization of ammonium bicarbonate in a novel ammonia carbon capture system

Dong

Feng

Dong

et al. 2022

Carbon Capture Science & Technology

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Mechanical and electrical performances of ternary Cu-2.8%Ni-0.7%Si alloy modulated by ultrasonic solidification

Zhou,

Hu,

Wang

et al. 2024

Journal of Alloys and Compounds

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Use of enantiomeric properties of sodium chlorate to assess primary and secondary nucleation under sonication

Abstract: Highlights Evidence short sonication time induces primary nucleation. More primary nucleation events at 98 kHz compared to 200 kHz. Primary nucleation requires more intense cavitational collapse bubbles. 98 kHz and 200 kHz induced the same secondary nucleation rate.

Cited by 4 publications

References 66 publications

Advances and Opportunities Concerning Nucleation Measurement and Control Technology in Crystallization

Advances and Opportunities Concerning Nucleation Measurement and Control Technology in Crystallization

Kinetic properties of solventing out crystallization of ammonium bicarbonate in a novel ammonia carbon capture system

Mechanical and electrical performances of ternary Cu-2.8%Ni-0.7%Si alloy modulated by ultrasonic solidification

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