Assessing the benefits of automatic grinding control using PST technology for true on-line particle size measurement

What is claimed is: 1. A mineral extraction system comprising: at least one hydrocyclone, each having input piping, underflow piping, a cyclone portion and overflow piping; an impact-based particle size measurement device having a particle size sensor mounted into and arranged on some part of the at least one hydrocyclone and configured to sense particles flowing in a process medium and impacting the particle size sensor, and providing signaling containing information about a ground product size of the particles in the process medium; and a controller having a signal processor configured to receive the signaling, and determine control signaling to control automatically and in real time a grinding/classification circuit of the mineral extraction system, based upon the signaling received and the ground product size of the particles sensed. 2. The mineral extraction system according to claim 1 , wherein the controller is configured to provide the control signaling to control the grinding/classification circuit of the mineral extraction system. 3. The mineral extraction system according to claim 1 , wherein the particle size sensor of the impact-based particle size measurement device is arranged on mounted into the overflow piping of the at least one hydrocyclone. 4. The mineral extraction system according to claim 1 , wherein the controller comprises a % solids controller, and the signal processor is configured to receive the signaling and determine the control signaling containing information to control the % solids provided to the input piping of the cyclone. 5. The mineral extraction system according to claim 4 , wherein the control signaling contains information to adjust water provide to the % solids. 6. The mineral extraction system according to claim 1 , wherein the grinding/classification circuit of the mineral extraction system comprises a grinding mill configured to grind solid materials into ground particles; and the controller comprises a grinding mill controller, and the signal processor is configured to receive the signaling and determine the control signaling containing information to control the grinding mill. 7. The mineral extraction system according to claim 6 , wherein the control signaling contains information to control a control parameter of the grinding mill, including power. 8. The mineral extraction system according to claim 6 , wherein the grinding mill comprises a SAG mill or a Ball mill. 9. The mineral extraction system according to claim 1 , wherein the controller is configured to operate the mineral extraction system at a target product size set point, and the signal processor is configured to adjust the target product size set point based upon the signaling received and the ground product size of the particles sensed. 10. The mineral extraction system according to claim 9 , wherein the signal processor is configured to adjust the target product size set point based upon a proportional/integral control algorithm. 11. The mineral extraction system according to claim 1 , wherein the grinding/classification circuit of the mineral extraction system comprises a grinding mill configured to grind solid materials into ground particles having an average ground particle size; and the control signaling contains information to control the grinding mill to adjust the average ground particle size of the ground particles provided to the hydrocyclone, based upon the signaling received, including adjusting a target product size set point of the mineral extraction system. 12. The mineral extraction system according to claim 1 , wherein the controller is configured to operate the mineral extraction system with a desired throughput; and the control signaling contains information to control the desired throughput of the mineral extraction system, based upon the signaling received, including adjusting a target product size set point of the mineral extraction system. 13. The mineral extraction system according to claim 1 , wherein the controller is configured to operate the mineral extraction system with a desired mineral recovery; and the control signaling contains information to control the desired mineral recovery of the mineral extraction system, based upon the signaling received, including adjusting a target product size set point of the mineral extraction system. 14. The mineral extraction system according to claim 1 , wherein the mineral extraction system comprises hydrocyclones having individual impact-based particle size sensors mounted into and arranged thereon, each configured to sense respective particles flowing in a respective process medium in a respective hydrocyclone, and providing respective signaling containing information about respective ground product size of the respective particles in the respective process medium; and a particle measurement device junction box configured to receive the respective signaling and provide the respective signaling to the controller. 15. The mineral extraction system according to claim 1 , wherein the grinding/classification circuit of the mineral extraction system comprises a grind circuit configured to receive ore particles having a mass flow rate; and the controller is configured to adjust the mass flow rate of the ore particles received by the grind circuit, based upon the signaling received, including adjusting a target product size set point of the mineral extraction system. 16. The mineral extraction system according to claim 1 , wherein the at least one hydrocyclone is configured to receive a slurry having a density; and the controller is configured to adjust the density of the slurry received by the at least one hydrocyclone, based upon the signaling received, including adjusting a target product size set point of the mineral extraction system. 17. The mineral extraction system according to claim 1 , wherein the at least one hydrocyclone comprises a battery of hydrocyclone; and the controller is configured to adjust the number of open hydrocyclones in the batter, based upon the signaling received, including closing one or more hydrocyclones that are passing particles whose size distribution exceeds a threshold. 18. The mineral extraction system according to claim 1 , wherein the at least one hydrocyclone comprises a battery of hydrocyclone configured to receive a slurry at a volumetric flow rate; and the controller is configured to adjust the volumetric flow rate of the slurry, based upon the signaling received, including adjusting a set point of the mineral extraction system. 19. A method comprising: configuring at least one hydrocyclone with input piping, underflow piping, a cyclone portion and overflow piping; mounting into and arranging on some part of the at least one hydrocyclone a particle size sensor of a an impact-based particle size measurement device to sense particles flowing in a process medium, and providing signaling containing information about a grind product size of the particles in the process medium; and receiving in a controller having a signal processor the signaling, and determining control signaling to control automatically and in real time a grinding/classification circuit of the mineral extraction system, based upon the signaling received and the ground product size of the particles sensed. 20. The method according to claim 19 , wherein the method comprises providing from the controller the control signaling to control parts of the mineral extraction system. 21. The mine