Abstract: Disclosed is a system and method for sorting copper-bearing ore to select portions having a target copper content. The system includes an analysis and selection station including first magnetic resonance analyzer measuring the copper content of input ore and a controlled diverter to divert portions of the input ore to a collection path when the copper content meets or exceeds a predetermined cut-off value. The predetermined cut-off is adjusted by a controller in response to the first magnetic resonance analyzer. A second magnetic resonance analyzer measures the copper content of the ore in a product path. That measurement is fed back to the controller to fine tune the adjusted cut-off value above, up or down, to optimize the yield of ore having the targeted copper content. The system may include a station for sizing the input ore, a station for sizing the output ore, and a station for sizing waste produced by the system.
Abstract: Disclosed is a system for sorting copper-bearing ore to select portions having a desired target copper content. The system includes a first magnetic resonance analyzer for measuring the copper content of ore input into the system and a controller that controls a diverter to divert portions of the input ore to a collection path when the copper content meets or exceeds a predetermined cut-off value. The system also includes a second magnetic resonance analyzer to measure the copper content of the ore in the collection path. The measurements are then fed back to the controller where the controller can adjust the predetermined cut-off value above, up or down, to optimize the yield of ore with the targeted copper content.
Abstract: Disclosed is a system for sorting copper-bearing ore to select portions having a desired target copper content. The system includes a first magnetic resonance analyzer for measuring the copper content of ore input into the system and a controller that controls a diverter to divert portions of the input ore to a collection path when the copper content meets or exceeds a predetermined cut-off value. The system also includes a second magnetic resonance analyzer to measure the copper content of the ore in the collection path. The measurements are then fed back to the controller where the controller can adjust the predetermined cut-off value above, up or down, to optimize the yield of ore with the targeted copper content.