Recent Advances in Studying Colloidal Interactions in Mineral Processing Mining, Metallurgy and Exploration
- Organization:
- Society for Mining, Metallurgy & Exploration
- Pages:
- 0
- File Size:
- 3197 KB
- Publication Date:
Abstract
Colloidal interactions play a critical role in mineral processing, including grinding, physical separation (particularly flotation),
dewatering, and tailings management. Despite great energy input in comminution to liberate valuables from gangues, heterocoagulation between valuables and gangues would prevent the separation of valuables from gangues. On the other hand, selective
coagulation/flocculation to increase the size of desired fine particles could enhance physical separation and dewatering, while
dispersion is needed for fine grinding. To control the state of colloidal dispersions by creating favorable conditions, it is of
paramount importance to study colloidal interactions in a relevant system and understand underlying mechanisms. This review
summarizes recent advances in developing the-state-of-the-art techniques and novel methods of measuring colloidal forces,
including atomic force microscope, surface force apparatus, zeta potential distribution measurement, quartz crystal microbalance
with dissipation, and our recently developed integrated dynamic force apparatus. The basic principle of each technique was
introduced first, followed by a summary of critical information derived for the relevant mineral processing systems. Finally, the
pros and cons of each technique were discussed to emphasize the use of complementary techniques that assist in solving
fundamental problems in mineral processing.
Citation
APA: Recent Advances in Studying Colloidal Interactions in Mineral Processing Mining, Metallurgy and Exploration
MLA: Recent Advances in Studying Colloidal Interactions in Mineral Processing Mining, Metallurgy and Exploration . Society for Mining, Metallurgy & Exploration,