RU97105838A - DEVICE AND METHOD FOR GRAVITATIONAL SEPARATION OF SOLID PARTICLES - Google Patents

Claims (20)

1. A device for the gravitational separation of particles having different densities, said particles being initially impurities in the aqueous pulp, said impurity contains two or more types of particles ranging from particles with a relatively low density to particles with a relatively high density, said device comprising : (a) a tubular column having an upper portion that includes a low density layer zone, a lower portion that includes a high density layer zone, and an intermediate portion that includes inlet zone for the pulp between said upper portion and lower portion, each of said layers comprises a packing material defining a large number of small channels and interconnected chambers extending circularly through the respective zone; (b) a means for forming a suspension of aqueous pulp; (c) means for supplying a suspension of aqueous pulp to said pulp inlet channel for passing the pulp into said column and through said flow channels; (d) means for shaking the aqueous pulp in said column to form a low density layer of low density particles in said region of the low density layer and to form a high density layer of particles with a high density in said region of the high density layer; (e) means for unloading the tail fraction containing particles of low density from the aqueous pulp from the top of said column above said zone of the low density layer; and (f) means for discharging the fraction of the concentrate containing particles of high density from the aqueous pulp from the lower part of the specified column under the specified zone of the layer with high density.  2. The device according to p. 1, characterized in that the nozzle is a plurality of vertically arranged plates, and the separation means designed to place these plates at a certain distance from each other in the lateral direction, form many channels for flow between adjacent plates.  3. The device according to p. 2, characterized in that it includes many adjacent to each other in the vertical direction of the individual sections of these plates.  4. The device according to p. 3, characterized in that the said sections are directed in such a way that the vertical planes of the plates in each of these sections are located at an angle relative to the vertical planes of the plates in the adjoining section, and in that the said separation means are rows of corrugations each of these plates, and these corrugations extend diagonally relative to the horizontal.  5. The device according to p. 4, characterized in that the corrugations on adjacent plates extend in opposite directions.  6. The device according to p. 1, characterized in that the said device comprises means for preliminary screening of said water pulp located in front of the specified inlet channel along the pulp, and said means for preliminary screening removes large particles from said water pulp to obtain water pulp having an admixture of particles, consisting of particles having a size of less than 150 mesh.  7. The device according to claim 1, characterized in that the said device comprises means for producing an aqueous pulp having an admixture of particles containing at least 99% by weight of particles having sizes less than 150 microns, based on the total weight of the particles in said pulp.  8. The device according to p. 1, characterized in that the said device contains means for producing aqueous pulp, in which the impurity consists of particles having sizes less than 150 microns.  9. The device according to claim 1, characterized in that said shaking means is a pump for supplying pulsating water, and the water inlet channel, located below the lower part, is designed to supply water pulses to the specified layer with a high density, sufficient to to cause shaking of said layers and gravitational separation of said particles with high density and low density.  10. The method of gravitational separation of particles with a relatively high and low density, initially found in impurities in the aqueous pulp, comprising the following techniques: (a) perform a tube-shaped column having an upper part, which includes a zone of a layer with a low density, a lower part, which includes a zone layer with a high density, and the intermediate part, which includes the zone of the inlet channel for the pulp between the specified upper part and the lower part, (b) are placed in the specified upper zone and in the specified lower zone of the nozzle material, image having a large number of flow channels passing circularly through the respective zones, (c) the pulp is introduced into the zone of the pulp inlet channel to pass through the flow channels in the packing material to form a low-density particle layer in the upper zone and a high-density particle layer in said lower zone, (d) shaking the particles in said layers to cause gravitational separation of said high and low density particles in said pulp by causing the low density particles to migrate the direction in the direction of the specified layer with a low density and into this layer and causes the migration of these particles with a high density in the direction of the specified layer with a high density and into this layer, (e) take the tail fraction containing particles with low density from the upper part of the specified column above the upper zone and (f) a concentrate fraction containing particles with high density is withdrawn from the lower part of the column under the lower zone.  11. The method according to p. 10, characterized in that the pulp contains mineral ore, including a mixture of particles of mineral value and gangue particles, the pulp is prepared for gravitational separation by treating these particles with a dispersing agent, which is designed to reduce particle agglomeration by at least at least one of these layers.  12. The method according to p. 11, characterized in that said mineral ore is iron ore.  13. The method according to p. 10, characterized in that the nozzle contains many separate adjacent to each other in the vertical direction of the sections from the vertically extending plates and separation means designed to place these plates at some distance from each other in the lateral direction to form many channels for stream and cameras.  14. The method according to p. 13, characterized in that the said sections are guided in such a way that the vertical planes of the plates in one section are located at an angle relative to the vertical planes of the plates in the adjacent section, and that these separation means are rows of corrugations on each of plates, and these corrugations run diagonally relative to the horizontal.  15. The method according to p. 14, characterized in that the corrugations on adjacent plates are in opposite directions.  16. The method according to p. 10, characterized in that the said shaking is carried out by supplying pulses of water in the specified layers and up through them.  17. The method according to p. 16, characterized in that the impurity of particles in the specified pulp consists of particles having particle sizes less than 100 microns.  18. The method according to p. 16, characterized in that the impurity of particles in the specified pulp contains at least 99 wt.% Particles having sizes less than 150 mesh.  19. The method according to p. 16, characterized in that there is provided a means for removing particles having a fraction size of more than 150 mesh, from the specified pulp, which is located to the specified input channel along the pulp.  20. The method of gravitational separation of particles with a relatively high and low density, initially found in impurities in the aqueous pulp, comprising the following techniques: (a) pipe-like columns having an upper part that includes a zone of a layer with a low density, a lower part that includes a zone layer with a high density, and the intermediate part, which includes the zone of the inlet channel for the pulp between the specified upper part and the lower part, (b) are placed in the specified column means for the formation of a large number of channels, pass flowing through said column, (c) pulp is introduced into the zone of the pulp inlet channel for the pulp to pass through the flow channels to form a low-density particle layer in the specified upper zone and a high-density particle layer in the specified lower zone, (d) shake the particles in these layers, to cause gravitational separation of these particles with high and low density in the pulp and cause the migration of particles with low density in the direction of the specified layer with low density and cause a moment in this layer a fraction of these high density particles in the direction of the high density layer and into this layer, (e) a fraction of a concentrate containing particles of low density is withdrawn from the top of the column above the upper zone, (f) tail fractions containing particles with high density, from the bottom of the column under the lower zone.