Decanter centrifuge nozzle

What is claimed is: 1. A decanter centrifuge comprising: a centrifuge bowl; a feed chamber within the centrifuge bowl, the feed chamber having an axis of rotation and a direction of rotation; a scroll conveyor coaxially aligned with the feed chamber, the scroll conveyor: encircling the feed chamber; comprising a plurality of conveyor flights; being rotationally locked with the feed chamber; and being in a separation zone of the centrifuge bowl; one or more nozzles providing fluid communication via a nozzle aperture from an interior volume of the feed chamber to the separation zone, each one of the one or more nozzles: defining a rectangular aperture; being located such that a discharge from the one nozzle discharges into a single space between two adjacent ones of the plurality of conveyor flights; having a convex rounded leading edge defining a first boundary of the aperture; and having a trailing edge defining a second boundary of the aperture, the leading edge and the trailing edge being delineated in that the direction of rotation of the feed chamber coincides with a direction from the trailing edge to the leading edge; and the interior of the feed chamber being cylindrical except for the leading and trailing edges of the rectangular apertures of the nozzles. 2. The decanter centrifuge of claim 1 , each one of the one or more nozzles comprising an inner leading edge surface and an inner trailing edge surface, the inner leading edge surface and the inner trailing edge surface extending from the leading edge and trailing edge, respectively, inside the feed chamber. 3. The decanter centrifuge of claim 2 , wherein the inner leading edge surface has a steeper incline than the inner trailing edge surface, the inclines being relative to an imaginary plane that is coplanar with tangential lines of exterior surfaces of the feed chamber. 4. The decanter centrifuge of claim 1 , wherein the nozzle aperture is framed by an aperture pad comprising a perimetric leading edge protruding inside the feed chamber. 5. The decanter centrifuge of claim 4 , wherein the aperture pad comprises tungsten carbide. 6. The decanter centrifuge of claim 1 , wherein the trailing edge comprises an acutely angled edge. 7. The decanter centrifuge of claim 1 , wherein the trailing edge comprises a rounded edge having a radius of curvature that is less than one-fourth of a radius of curvature of the leading edge. 8. A decanter centrifuge nozzle comprising: a rectangular aperture; a convex rounded leading edge of the aperture; and a trailing edge facing the rounded leading edge across an interior of the aperture, the leading edge to precede the trailing edge when the nozzle is in motion during centrifuge operation; the nozzle to be mounted in a feed chamber that is cylindrical except at the leading and trailing edges of the aperture; and the aperture to be positioned between conveyor flights such that slurry does not impact the conveyor flights as it passes through the aperture during centrifuge operation. 9. The decanter centrifuge nozzle of claim 8 , further comprising an inner leading edge surface and an inner trailing edge surface, the inner leading edge surface and the inner trailing edge surface extending from the leading edge and trailing edge, respectively, on an interior side of the nozzle. 10. The decanter centrifuge nozzle of claim 9 , wherein the inner leading edge surface has a steeper incline than the inner trailing edge surface, the inclines being relative to an imaginary plane that is coplanar with the aperture. 11. The decanter centrifuge nozzle of claim 8 , wherein the rectangular aperture is framed by an interior aperture pad comprising a perimetric leading edge. 12. The decanter centrifuge nozzle of claim 11 , wherein the leading edge and the aperture pad comprise tungsten carbide. 13. The decanter centrifuge nozzle of claim 8 , wherein the trailing edge comprises an acutely angled edge. 14. The decanter centrifuge nozzle of claim 8 , wherein the trailing edge comprises a rounded edge having a radius of curvature that is less than one-fourth of a radius of curvature of the leading edge. 15. A method of separating two phases of a slurry, the method comprising: charging the slurry into a feed chamber within a centrifuge bowl of a decanter centrifuge, the feed chamber being coaxially aligned with a scroll conveyor and with the centrifuge bowl, the scroll conveyor: encircling the feed chamber; comprising a plurality of conveyor flights; and being in a separation zone of the centrifuge bowl; discharging the slurry from the feed chamber into the separation zone of the centrifuge bowl via one or more nozzles, each one of the one or more nozzles: comprising a rectangular aperture; being located such that a discharge from the one nozzle discharges into a single space between two adjacent ones of the plurality of conveyor flights; having a convex rounded leading edge defining a first boundary of the aperture; and having a trailing edge defining a second boundary of the aperture, the leading edge and the trailing edge being delineated in that a direction of rotation of the feed chamber coincides with a direction from the trailing edge to the leading edge; the interior of the feed chamber being cylindrical except for the leading and trailing edges of the rectangular apertures of the nozzles, rotating the feed chamber in the direction of rotation, thereby imparting centrifugal acceleration upon the slurry, separating the slurry into the two phases; and discharging the two separated phases from the decanter centrifuge. 16. The method of claim 15 , in which the scroll conveyor is rotationally locked with the feed chamber. 17. The method of claim 15 , in which each one of the one or more nozzles comprise an inner leading edge surface and an inner trailing edge surface, the inner leading edge surface and the inner trailing edge surface extending from the leading edge and trailing edge, respectively, inside the feed chamber. 18. The method of claim 17 , in which the inner leading edge surface has a steeper incline than the inner trailing edge surface, the inclines being relative to an imaginary plane that is coplanar with tangential lines of exterior surfaces of the feed chamber. 19. The method of claim 15 , in which the nozzle aperture is framed by an aperture pad comprising a perimetric leading edge protruding inside the feed chamber. 20. The method of claim 15 , in which the trailing edge comprises a rounded edge having a radius of curvature that is less than one-fourth of a radius of curvature of the leading edge.