ChemChemTech, volume 65, issue 9, pages 81-89

EFFECT OF ULTRASOUND ON REAGENT COMPOSITIONS FOAMING PROPERTIES USEDIN MINERAL FLOTATION

Publication typeJournal Article
Publication date2022-09-30
Journal: ChemChemTech
scimago Q3
wos Q4
SJR0.232
CiteScore1.4
Impact factor0.6
ISSN05792991, 25003070
General Chemistry
General Chemical Engineering
Abstract

The article considers the effect of foam-forming compositions of flotation reagents (hydro-chloric amine solution, hydrochloric amine solution with addition of polyethylene glycol 200M and hydrochloric amine solution with addition of triethylene glycol) ultrasonic treatment on the prop-erties of two-phase foams. It was determined that ultrasonic activation of reagent compositions increases a foam specific volume and foam capacity by10.3 and 12.1%, respectively, while the foams become drier by15.2% (in the case of the hydrochloric amine solution), 15.6% (in the case of the hydrochloric amine solution with addition of polyethylene glycol 200M) and 13.3% (in the case of the hydrochloric amine solution with addition of triethylene glycol). In addition, there is an increase in the foam layer stability with an increase in the ultrasonic treatment power by63.1% (in the case of the hydrochloric amine solution), which indicates the ability to control the stability and other characteristics of the foamusing the acoustic method. Due to ultrasonic dispersion, amine floccules are more efficiently distributed over the entire volume of the emulsion, includingthe sur-face of the liquid. It was found that ultrasound changes the above foam characteristics by reducing the surface tension of foam-forming compositions and decreasing collector micelles.

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MDPI
A Review of Ultrasonic Treatment in Mineral Flotation: Mechanism and Recent Development
Zhang H., Du M., Hu H., Zhang H., Song N.
Molecules scimago Q1 wos Q2 Open Access
2024-04-25 citations by CoLab: 2 PDF Abstract  
Ultrasonic treatment has been widely used in the mineral flotation process due to its advantages in terms of operational simplicity, no secondary pollutant formation, and safety. Currently, many studies have reported the effect of ultrasonic treatment on mineral flotation and shown excellent flotation performance. In this review, the ultrasonic mechanisms are classified into three types: the transient cavitation effect, stable cavitation effect, and acoustic radiation force effect. The effect of the main ultrasonic parameters, including ultrasonic power and ultrasonic frequency, on mineral flotation are discussed. This review highlights the uses of the application of ultrasonic treatment in minerals (such as the cleaning effect, ultrasonic corrosion, and desulfuration), flotation agents (such as dispersion and emulsification and change in properties and microstructure of pharmaceutical solution), and slurry (such formation of microbubbles and coalescence). Additionally, this review discusses the challenges and prospects of using ultrasonic approaches for mineral flotation. The findings demonstrate that the application of the ultrasonic effect yields diverse impacts on flotation, thereby enabling the regulation of flotation behavior through various treatment methods to enhance flotation indices and achieve the desired objectives.

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