Gamma processes of shear flocculation, oil agglomeration and liquid–liquid extraction

The separation of minerals in the shear flocculation, oil agglomeration and liquid–liquid extraction processes can be provided by the control of solution surface tension. These new separation techniques can be defined as ‘gamma processes of shear flocculation, oil agglomeration and liquid–liquid ext...

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Bibliographic Details
Published in:Separation and purification technology 2014-08, Vol.132, p.446-451
Main Authors: Ozkan, A., Duzyol, S.
Format: Article
Language:English
Subjects:
Agglomeration
Flocculating
Flotation
Gamma flotation
Gamma liquid–liquid extraction
Gamma oil agglomeration
Gamma shear flocculation
Liquid-liquid extraction
Minerals
Separation
Shear
Surface tension
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Summary:The separation of minerals in the shear flocculation, oil agglomeration and liquid–liquid extraction processes can be provided by the control of solution surface tension. These new separation techniques can be defined as ‘gamma processes of shear flocculation, oil agglomeration and liquid–liquid extraction’. [Display omitted] •Flocculation, agglomeration and liquid–liquid extraction are based on wettability.•Separation of minerals can be provided by surface tension control in these methods.•The new flocculation method can be defined as ‘gamma shear flocculation’.•‘Gamma oil agglomeration’ as a new method can be used for separation of minerals.•Separation of minerals with ‘gamma liquid–liquid extraction’ can also be achieved. Gamma flotation process is characterized by emphasis on the control of solution surface tension and the separation of minerals in suspension with this technique is based on the differences in wettability of minerals. The wettability properties of mineral surfaces can be defined in terms of their values of critical surface tension of wetting (γc) as a quantifying parameter, which is an essential property to achieve selectivity in surface chemistry-based separation processes. That is, the gamma flotation technique utilizes the differences in the critical surface tension of wetting (γc) of minerals. Similar to the flotation method, shear flocculation, oil agglomeration and liquid–liquid extraction processes also utilize differences in wettability of minerals. Therefore, the separations of minerals by the control of surface tension in the shear flocculation, oil agglomeration and liquid–liquid extraction methods can be provided. In this study, the separations of some minerals with these processes have been investigated by using the control of the solution surface tension and the successful results could be reached. Consequently, these new separation processes have been defined as ‘gamma shear flocculation’, ‘gamma oil agglomeration’ and ‘gamma liquid–liquid extraction’.
ISSN:1383-5866
1873-3794
DOI:10.1016/j.seppur.2014.06.001