Abstract: Non-magnetic, conductive particles are separated from one another on the basis of their respective electrical conductivities. This is achieved by irradiating the particles with microwave or radio frequency electromagnetic radiation and simultaneously subjecting the particles to a magnetic field. The eddy currents induced in the particles by the electromagnetic irradiation interact with the magnetic field to cause movements of the particles which are dependent on their conductivities.

Abstract: An apparatus for separating ferromagnetic materials from fluid media has a working passage divided by a partition into sections filled with an insert of ferromagnetic material. A magnetizing system is arranged coaxially with the working passage. An arrangement for imparting reciprocations to the magnetizing system is fashioned as at least two electromagnetic coils with one such coil at the opposite ends of the passage, parameters of the coils being such as to ensure movement of the magnetizing system between two extreme positions.

Abstract: A magnetic separator includes a plurality of elongated magnetic members generally disposed with longitudinal axes extending in parallel relationship with one another. A first end plate is connected to adjacent terminal ends of the magnetic members to hold the magnetic members with the longitudinal axes generally defining a common plane. Non-magnetic sheathing members are disposed sheathing the entire longitudinal length of the magnetic members. A second end plate is connected to adjacent terminal ends of the non-magnetic members to provide longitudinal sheathing and unsheathing movement of the sheathing members with respect to the magnetic members for cleaning accumulated magnetic particles from the exterior surface of the non-magnetic members. The first and second end plates are adapted for reciprocating movement in the commonm plane, preferably in a direction generally perpendicular to the longitudinal axes of the magnetic members to reduce bridging and clogging of the material flow.

Abstract: A gravity-magnetic ore separator for concentrating magnetic or weakly magnetic minerals having a relatively high specific gravity is disclosed. The ore separator utilizes codirectional magnetic and gravitational forces to achieve separation capabilities in excess of that which can be achieved using gravity forces alone. Typically, the gravity-magnetic ore separator is formed by retrofitting a conventional gravity separator such as a spiral, cone, pinched sluice, etc. with magnets so as to enhance the separation capability of the conventional gravitational ore separator. Means are provided to prevent build up of magnetic material on the surface over which the ore flows.

Abstract: The invention relates to a coil arrangement for a magnetic separator having a strong field, in which the solenoid coils are provided in the first part only of the length of the housing and a magnetic shunt is arranged between the first and second parts of the length of the housing. A considerable reduction in the coil weight is achieved by such a construction.

Abstract: A gravity-magnetic ore separator for concentrating magnetic or weakly magnetic minerals having a relatively high specific gravity is disclosed. The ore separator utilizes codirectional magnetic and gravitational forces to achieve separation capabilities in excess of that which can be achieved using gravity forces alone. Typically, the gravity-magnetic ore separator is formed by retrofitting a conventional gravity separator such as a spiral, cone, pinched sluice, etc. with magnets so as to enhance the separation capability of the conventional gravitational ore separator. Means are provided to prevent build up of magnetic material on the surface over which the ore flows.

Abstract: Magnetic separating apparatus is disclosed which includes means for establishing a magnetic field in a predetermined zone, a separating chamber having an inlet and an outlet for fluid, fluid-permeable and magnetizable material disposed within the separating chamber, ferromagnetic shielding means for magnetically screening a zone remote from the predetermined zone; and means for moving the separating chamber between the predetermined zone and the remote zone. When within one of the remote zones, a separating chamber is screened from the magnetic field applied by the magnet within the predetermined zone, and thus the packing material within the separating chamber may be particularly efficiently regenerated within this zone. This regeneration may e.g. be carried out by passing clean water through the packing material, optionally after having demagnetized the packing material, in order to flush out magnetizable particles from collecting sites within the packing material.

Abstract: A magnetic matrix separator for selectively separating diverse particles subjects the particles to the interaction of vibratory and magnetic forces induced conjointly by the application of an intensified intermittent or alternating magnetic flux to the matrix. Continuous, dual separating actions are obtained with a flexibly mounted circular matrix structure caused to rotate with respect to the pole faces of a pair of U-shaped electromagnets. Use of a systematic arrangement of uniformly shaped matrix components facilitate rapid processing of the particles for separation.