New Developments On Electrostatic Separation Of Fines

Electrostatic separation is a dry separation technique usable for many applications in the mining- and recycling industries. At the Chair of Mineral Processing intensified research has been done on this topic during the last years. One challenge was to measure the triboelectric charging of fine mineral particles in a triboelectric charging device consisting of an electrically insulated polyethylene rotor/stator assembly. These tests, performed on monomineralic samples, were accomplished in a climate chamber. It was shown that charging of minerals not only depends on rotor speed, feed rate and atmospheric circumstances but also on the properties of the applied electrostatic field. Tests on pure calcite in contact with the polyethylene rotor/stator system resulted in specific triboelectric charges up to +10 nC/g at low relative humidity. With more water present in the surrounding atmosphere, these charging values decreased significantly. However, at higher relative humidity, triboelectric charge values could be maintained after an electrostatic field of positive polarity was applied. Similarly, charging behavior was found with other hydrophilic minerals. The idea behind all these tests was to find the largest charging difference between minerals occurring together in a deposit and to be able to charge them oppositely, assuming that this means good sort ability in an electrostatic separator. The results gained from these investigations are shown. After having obtained many results on charging pure minerals, it became interesting to test the applicability of the charging tendencies on electrostatic separation of fines <100 µm. In order to do so, a separator for fine polymineralic powders was developed, constructed and combined with the triboelectric charging device, all being set up in a climate chamber. This new so-called coax-separator is presented along with first test-results.