Separation of oxide inclusions from liquid metal in an applied electrostatic field

It is known that oxide inclusions in liquid metal carry mostly positive charges on their surfaces. In an electrostatic field, therefore, such charged particles suspended in a liquid metal experience forces and accumulate in the region of the negatively charged surface, resulting in the separation of oxide inclusions from the liquid metal. In this study, this principle was experimentally demonstrated for the case of a capacitor cell by the imposition of a d.c. potential on electrodes. The capacitor cell consisted of a dielectric container of Pyrex tube, a high voltage d.c. source, and two electrodes, which were symmetrically attached onto the outer surface of the Pyrex. tube. Experiments were carried out for suspensions of liquid tin/metal oxides, such as SnO₂, WO₃, and PbO under an applied potential of up to 12 kV. All experimental results were in good agreement with the theoretical prediction and showed that the degree of separation was significantly increased with the applied potential.