Classifier apparatus, systems and methods

The invention claimed is: 1. A method of operating a classifying tank having a plurality of stations disposed in spaced apart relation along the width of the tank, each station having a plurality of discharge openings for releasing aggregate material to one of at least a first and second destination, the first destination corresponding to a first product and the second destination corresponding to waste, each station having an actuator for selectively opening one or more of the discharge openings at the associated station, the method comprising: introducing aggregate material to the classifying tank such that one or more characteristics of said aggregate material is different at each of the plurality of stations; using the actuators, opening and closing one or more discharge openings at each station in order to direct a portion of the aggregate material from each station to one of at least a first and second destination; executing a plurality of station analyses, each station analysis determining a first actual specification of said first product; comparing the first actual specification of said first product for each station analysis to a first desired specification; calculating a plurality of amounts of waste, each amount of waste being associated with one of said plurality of station analyses, said waste not being within said first desired specification; identifying an acceptable subset of station analyses, the acceptable subset of station analyses being the subset for which the first actual specification is within the first desired specification; selecting an optimal station analysis, the optimal station analysis being the station analysis within said acceptable subset corresponding to the lowest of said plurality of amounts of waste; using the actuators, opening and closing one or more discharge openings at each station according to the optimal station analysis; and transferring said waste from said second destination for disposal or reuse. 2. The method of claim 1 , further comprising: determining whether a station analysis auto-select mode is enabled. 3. The method of claim 1 , further comprising: determining that there is no station analysis for which the first actual specification is within the first desired specification; and generating an alarm. 4. The method of claim 1 , further comprising: determining whether an estimated fineness modulus associated with the optimal station analysis is within a fineness modulus specification. 5. The method of claim 4 , further comprising: if said estimated fineness modulus associated with the optimal station analysis is not within a fineness modulus specification, selecting another station analysis. 6. The method of claim 4 , further comprising: if said estimated fineness modulus associated with the optimal station analysis is not within a fineness modulus specification, selecting the station analysis having the next least amount of waste. 7. The method of claim 1 , further comprising: opening and closing one or more discharge openings at each station in order to direct at least a portion of said aggregate material from each station to a third destination corresponding to a second product. 8. The method of claim 7 , wherein each station analysis further determines a second actual specification of said second product. 9. The method of claim 8 , further comprising: comparing the second actual specification of said second product for each station analysis to a second desired specification. 10. The method of claim 9 , wherein the second actual specification of said second product is further within the second desired specification for each station analysis of the acceptable subset of station analyses. 11. The method of claim 10 , further comprising: determining whether a station analysis auto-select mode is enabled. 12. A method of operating a classifying tank having a plurality of stations disposed in spaced apart relation along the width of the tank and extending from an inlet side to on outlet side of the tank, each station having a plurality of discharge openings for releasing aggregate material to one of at least a first and second destination, the first destination corresponding to a first desired product and the second destination corresponding to waste, each station having an actuator for selectively opening one or more of the discharge openings at the associated station, the method comprising: calculating a plurality of amounts of waste, each amount of waste being associated with one of said plurality of station analyses, said waste not being within said first desired specification; transferring said waste from said second destination for disposal or reuse; introducing aggregate material to the classifying tank such that one or more characteristics of said aggregate material is different at each of the plurality of stations; using the actuators, opening and closing one or more discharge openings at each station in order to direct a portion of the aggregate material from each station to one of at least a first and second destination; determining a first estimated fineness modulus of said first product; determining whether said first estimated fineness modulus of said first product is within a first fineness modulus specification; if said first estimated fineness modulus is higher than said first fineness modulus specification, making an operational adjustment to one of the plurality of stations, said one of the plurality of stations being the station nearest to the inlet side of the classifying tank comparing the first actual specification of said first product for each station analysis to a first desired specification; identifying an acceptable subset of station analyses, the acceptable subset of station analyses being the subset for which the first actual specification is within the first desired specification; selecting an optimal station analysis, the optimal station analysis being the station analysis within said acceptable subset corresponding to the lowest of said plurality of amounts of waste, and using the actuators, opening and closing one or more discharge openings at each station according to the optimal station analysis. 13. The method of claim 12 , further comprising: if said first estimated fineness modulus is lower than said fineness modulus specification, making an operational adjustment to a station farthest from the inlet end classifying tank. 14. The method of claim 13 , further comprising: opening and closing one or more discharge openings at each station in order to direct at least a portion of said aggregate material from each station to a third destination corresponding to a second product. 15. The method of claim 14 , further comprising: determining a second estimated fineness modulus of the second product; determining whether said second estimated fineness modulus is within a second fineness modulus specification; and if said second estimated fineness modulus is higher than said second fineness modulus specification, making an operational adjustment to a station nearest to the inlet side of the classifying tank. 16. The method of claim 15 , further comprising: if said second estimated fineness modulus is lower than said second fineness modulus specification, making an operational adjustment to a station farthest from the inlet side of the classifying tank. 17. The method of claim 14 , wherein each station analysis further determines a second actual specification of said second product. 18. The method of claim 17 , further compri