RU2008105004A - ENRICHMENT MODULE - Google Patents

Abstract

Processing module, for the beneficiation of the tailings material from the beneficiation of disseminated copper-nickel ores, including one dredger, a stationary screen with a mesh hole size of 15 mm, a five-jet gravity slurry splitter, vibrating screens with a mesh hole size of 1.5 mm, a two-jet slurry divider, pumps, two batteries hydrocyclones, a pump, a pressureless valve five-jet slurry divider, concentrators, a pressureless valve nine-jet slurry divider, nine pneumatic mechanical flotation machines with a volume of each chamber of 16 m3 in the main flotation operation and fed in parallel, one pneumatic mechanical flotation machine with a chamber volume of 16 m3 in the cleaning operation, which differs According to the invention, the module for enrichment of the tailing dump material includes: an open pit field, two or three dredgers; an onshore pumping station, consisting of a fixed and vibrating screens, a sump with an overflow pocket communicated with a quarry field, two pumps with adjustable performance due to a change in the number of revolutions of electric motors; pressure head five-jet slurry dividers; vibrating screens; sump and pumps connected to batteries of de-sludging hydrocyclones, and the pressure at the inlet to the hydrocyclones is maintained at optimum due to a change in the speed of the pump electric motors and a change in the number of operating hydrocyclones, and when the slurry level in the sump falls below the prohibitive level, the level is maintained within the specified limits by returning a part of the hydrocyclone discharge; sands of hydrocyclone batteries through a sump and variable displacement pumps are connected to pressure

Claims (1)

Enrichment module, for enrichment of tailing material from enrichment of disseminated copper-nickel ores, including one dredger, fixed screen with a mesh hole size of 15 mm, five-jet pulper divider, vibrating screens with a mesh hole size of 1.5 mm, two-jet pulp splitter, pumps, two batteries hydrocyclones, pump, pressureless valve five-jet pulp splitter, concentrators, pressureless valve nine-jet pulp splitter, nine pneumomechanical flotation machines with the volume of each chamber s 16 m ³ in the operation of the main flotation and powered in parallel, one pneumomechanical flotation machine with a chamber volume of 16 m ³ in the cleaning operation, characterized in that according to the invention, the module for enriching the material of the tailings includes: a quarry field, two or three dredgers; a coastal pumping station, consisting of a stationary and vibration screen, a sump with an overflow pocket in communication with the quarry field, two pumps with adjustable capacity by changing the number of revolutions of the electric motors; five-jet pressure pulp dividers; vibrating screens; sumps and pumps in communication with dehumidifying hydrocyclone batteries, the pressure at the entrance to the hydrocyclones being kept optimal by changing the speed of the pump motors and changing the number of working hydrocyclones, and if the pulp level in the sumps is lower than the limit, the level is maintained within the specified limits by returning part of the hydrocyclone drains; sands of hydrocyclone batteries through sumps and pumps with adjustable capacity are communicated with pressure five-jet pulp dividers, and further with centrifugal separators; the tails of centrifugal separators are connected by gravity to the contact tank, the contact tank is connected to the sump and pump with adjustable capacity, and then to a mechanical flotation machine consisting of five chambers of 130 m ³ each and fed in series; the concentrate of five chambers of a mechanical flotation machine is communicated with a sump and a pump with adjustable capacity and then communicated with a contact vat and a pneumomechanical flotation machine consisting of four chambers (first cleaning) of 17 m ³ each and fed in series; the concentrate of four chambers of the pneumomechanical flotation machine is connected with a sump and a pump with adjustable capacity and then communicated with a pneumomechanical flotation machine consisting of three chambers (second cleaning) of 8 m ³ each and fed in series; the tails of the second flare are self-reported with the first chamber of the first flare, and the tails of the first flare are communicated through a sump and pump with the first chamber 130 m ^{3 of} flotation machine, the concentrate of centrifugal separators and flotation concentrate of the second flare are communicated through a sump-mixer with a high-pressure pump.