- Title
- The use of esterification to create hydrophobic quartz particles for flotation
- Creator
- Emer, Cagri; Bournival, Ghislain; Jameson, Graeme J.; Ata, Seher
- Relation
- International Mineral Processing Congress (IMPC 2014). IMPC2014: Online Proceedings (Santiago, Chile 20-24 October, 2014)
- Relation
- http://www.gecaminpublications.com/impc2014
- Publisher
- Gecamin Digital Publications
- Resource Type
- conference paper
- Date
- 2014
- Description
- It is well known among flotation practitioners that the contact angle can be correlated with the amount of material recovered from feed by flotation. The contact angle of solids can easily be modified by the addition of a collector. However, some collectors also have frothing properties thus altering the solid and bubble surface properties simultaneously. To avoid this problem, a technique has previously been used in which silanol groups are attached to the surfaces of the particles, but this method has its own problems. In this work, silica particles with various surface hydrophobicities were prepared using an esterification process. By using alcohols with different hydrocarbon chain lengths, from 4 to 12 carbon atoms, surfaces with a wide range of contact angles could be prepared. The technique was used in the modification of silica particles that were tested in a fluidized bed flotation column, and a laboratory mechanical flotation cell. In parallel experiments, dodecylamine (DDA) was used as a collector. It was found that irrespective of the type of flotation machine and surface preparation method, there was a close correspondence between flotation recovery and the contact angle of the particles. The silanation process has known drawbacks relating to the presence of moisture during the reaction, and the stability of the silane coating after it is been prepared. Esterification does not suffer from these disadvantages. This work has shown that the esterification technique is a robust alternative method for preparing hydrophobic quartz surfaces.
- Subject
- electrochemistry; flotation fundamentals
- Identifier
- http://hdl.handle.net/1959.13/1322350
- Identifier
- uon:24568
- Language
- eng
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