Apparatus, system and methods to divide flow

What is claimed is: 1. A system, comprising: a flow divider having a slurry receiving compartment and a discharge arrangement including a plurality of discharge apertures arranged in a substantially linear configuration; and a screening machine having a plurality of screening units with screening surfaces; and a plurality of feeder boxes, each feeder box configured to feed a slurry onto an associated screening surface, wherein the slurry receiving compartment is configured to fill with slurry such that the slurry flows substantially evenly into each of the plurality of discharge apertures, wherein the discharge arrangement is configured such that each discharge aperture allows a portion of the slurry to flow substantially uniformly into each feeder box. 2. The system of claim 1 , wherein the screening units are arranged vertically above each other and form a multi-tiered vibratory screening machine, the discharge apertures connected to the feeder boxes via a conduit and the flow divider is at least one of structurally connected to the vibratory screening machine, located next to the vibratory screening machine and at an elevation slightly above the vibratory screening machine such that the slurry flows substantially directly from each discharge aperture to each feeder box. 3. The system of claim 1 , wherein the discharge apertures are arranged in a substantially horizontal configuration. 4. The system of claim 1 , wherein each discharge aperture is substantially directly above each feeder box. 5. The system of claim 1 , wherein the discharge arrangement is configured as a discharge compartment, the discharge compartment separated from the receiving compartment by a flow plate having a plurality of feed pockets, each feed pocket relatively evenly directing a portion of the slurry to a discharge aperture. 6. The system of claim 5 , wherein the flow divider includes: an upper front member; first and second side members substantially perpendicular to and attached at opposite ends of the upper front member; a rear member having an upper portion attached to the first and second side members opposite the attachment of the upper front member; a lower portion of the rear member attached to a first angled bottom member, a second angled bottom member, and a flat bottom member; a lower front member attached to the first angled bottom member, the second angled bottom member, and the flat bottom member; the flow plate attached to the first and second side members at a position between the upper front member and the upper rear member and substantially parallel to the upper front member and the upper rear member; a discharge plate attached to the flow plate, a bottom portion of the first side member, a bottom portion of the second side member, and a bottom portion of the upper front member; wherein the discharge plate, a first portion of the first side member, a first portion the second side member, the flow plate and the upper front member form the discharge compartment; wherein the rear member, the lower front member, the first angled bottom member, the second angled bottom member, the flat bottom member, a second portion of the first side member, a second portion of the second side member, and the flow plate form the slurry receiving compartment; wherein the discharge plate includes the plurality of discharge apertures. 7. The system of claim 1 , wherein slurry is at least one of pumped into the slurry receiving compartment and gravity fed into the slurry receiving compartment. 8. The system of claim 5 , further comprising a plurality of separator plates that divide the discharge compartment into a plurality of discharge sub-compartments, each sub-compartment including a feed pocket and a discharge aperture. 9. The system of claim 8 , wherein each of the plurality of separator plates includes a vertical plate having a substantially horizontal flange extending from a top portion of the vertical plate. 10. The system of claim 8 , wherein the flow divider is configured such that a bottom portion of each feed pocket forms a weir such that the slurry relatively simultaneously flows over the weirs into each sub-compartment. 11. The system of claim 8 , further comprising a plurality of removable covers configured to cover the plurality of discharge sub-compartments. 12. The system of claim 6 , wherein the flow plate is an extension of the lower front member. 13. A flow divider, comprising: a slurry receiving compartment; and a discharge arrangement having a plurality of discharge apertures, wherein the slurry receiving compartment is arranged to relatively uniformly flow a portion of a slurry into each of the discharge apertures and the discharge arrangement is arranged such that each portion of the slurry exits each of the discharge apertures at a relatively even flow rate, wherein the discharge arrangement is configured as a discharge compartment, the discharge compartment separated from the receiving compartment by a flow plate have a plurality of feed pockets, each feed pocket relatively evenly directing the portions of the slurry to each of the discharge apertures, wherein the flow divider further comprises a plurality of separator plates that divide the discharge compartment into a plurality of discharge sub-compartments, each sub-compartment including a feed pocket and a discharge aperture. 14. The flow divider of claim 13 , wherein the discharge apertures are arranged at least one of linearly, planar and horizontally. 15. The flow divider of claim 13 , wherein the flow divider includes: an upper front member; first and second side members substantially perpendicular to and attached at opposite ends of the upper front member; a rear member having an upper portion attached to the first and second side members opposite the attachment of the upper front member; a lower portion of the rear member attached to a first angled bottom member, a second angled bottom member, and a flat bottom member; a lower front member attached to the first angled bottom member, the second angled bottom member, and the flat bottom member; the flow plate attached to the first and second side members at a position between the upper front member and the upper rear member and substantially parallel to the upper front member and the upper rear member; a discharge plate attached to the flow plate, a bottom portion of the first side member, a bottom portion of the second side member, and a bottom portion of the upper front member; wherein the discharge plate, a first portion of the first side member, a first portion the second side member, the flow plate and the upper front member form the discharge compartment; wherein the rear member, the lower front member, the first angled bottom member, the second angled bottom member, the flat bottom member, a second portion of the first side member, a second portion of the second side member, and the flow plate form the slurry receiving compartment; wherein the discharge plate includes the plurality of discharge apertures. 16. The flow divider of claim 13 , wherein slurry is at least one of pumped into the slurry receiving compartment and gravity fed into the slurry receiving compartment. 17. The flow divider of claim 13 , wherein each of the plurality of separator plates includes a vertical plate having a substantially horizontal flange extending from a top portion of the vertical plate. 18. The flow divider of claim 13 , wherein the flow divider is configured such that a bottom portion of each feed pocket forms a weir such that the slurry relatively simultaneously fl