Flow splitter for slurry distribution system

What is claimed is: 1. A flow splitter comprising: an inlet conduit including an inlet end and a junction end, the inlet conduit disposed along a main flow axis extending between the inlet end and the junction end, the inlet end defining an inlet opening, the junction end defining first and second junction openings, the first junction opening being disposed in spaced relationship to the second junction opening, the inlet conduit defining an inlet passage extending between the inlet opening and the first and second junction openings; a first outlet conduit in fluid communication with the first junction opening of the inlet conduit, the first outlet conduit including a discharge end defining a first discharge opening; a second outlet conduit in fluid communication with the second junction opening of the inlet conduit, the second outlet conduit including a discharge end defining a second discharge opening; and a junction portion disposed at the junction end of the inlet conduit, the junction portion disposed between the first junction opening and the second junction opening, the junction portion including a substantially planar wall region, the wall region being substantially perpendicular to the main flow axis; wherein the inlet conduit includes a contoured portion that defines a flow restriction in the inlet passage adjacent the junction portion, the contoured portion defining first and second guide channels, the flow restriction disposed laterally between the first and second guide channels along a transverse axis substantially perpendicular to the main flow axis, the first and second guide channels each having a cross-sectional area greater than the cross-sectional area of the flow restriction, the flow restriction having a maximum height along a height axis, the height axis being perpendicular to both the main flow axis and the transverse axis, and the first and second guide channels each having a maximum height along the height axis which is larger than the maximum height of the flow restriction. 2. The flow splitter of claim 1 , wherein the inlet opening of the inlet conduit has a cross-sectional area, the first discharge opening of the first outlet conduit has a cross-sectional area less than or about equal to the cross-section area of the inlet opening of the inlet conduit, and the second discharge opening of the second outlet conduit has a cross-sectional area less than or about equal to the cross-section area of the inlet opening of the inlet conduit. 3. The flow splitter of claim 2 , wherein the cross-sectional area of the first discharge opening of the first outlet conduit is substantially the same as the cross-sectional area of the second discharge opening of the second outlet conduit. 4. The flow splitter of claim 2 , wherein the cross-sectional area of the first discharge opening of the first outlet conduit is less than about 85% of the cross-section area of the inlet opening of the inlet conduit, and the cross-sectional area of the second discharge opening of the second outlet conduit is less than about 85% of the cross-section area of the inlet opening of the inlet conduit. 5. The flow splitter of claim 1 , wherein the contoured portion includes an upper convex region and an opposing lower convex region, the upper and lower convex regions projecting toward each other in the inlet passage to define the flow restriction therebetween. 6. The flow splitter of claim 1 , wherein the first and second guide channels are substantially aligned with the first and second junction openings, respectively. 7. The flow splitter of claim 1 , wherein the contoured portion includes an upper convex region and an opposing lower convex region, the upper and lower convex regions projecting toward each other in the inlet passage to define the flow restriction therebetween, and the first and second guide channels disposed laterally outwardly relative to the upper and lower convex regions and being substantially aligned with the first and second junction openings, respectively. 8. The flow splitter of claim 1 , further comprising: a compressing device including first and second compressing members disposed in spaced relationship to each other, the junction portion being disposed between the first and second compressing members, at least one of the first and second compressing members being movable over a range of travel relative to the other compressing member along a compressing axis, the compressing axis being substantially perpendicular to the main flow axis, between a normal position and a compressed position wherein a portion of at least one of the inlet conduit and the first and second outlet conduits adjacent the junction portion is compressed relative to the normal position. 9. The flow splitter of claim 8 , wherein the compressing members each comprise a substantially planar compressing surface, the compressing surfaces being in substantially parallel relationship to each other and to the main flow axis. 10. The flow splitter of claim 8 , wherein the compressing device includes an actuator adapted to selectively move the first compressing member relative to the second compressing member. 11. The flow splitter of claim 10 , wherein the compressing device includes a controller adapted to control the actuator such that the actuator is periodically actuated according to a predetermined frequency to periodically compress the junction portion. 12. The flow splitter of claim 10 , wherein the compressing device includes a controller adapted to control the actuator such that the actuator is actuated to move the first and second compressing members toward each other by a predetermined stroke length. 13. A flow splitter comprising: an inlet conduit including an inlet end and a junction end, the inlet conduit disposed along a main flow axis extending between the inlet end and the junction end, the inlet end defining an inlet opening, the junction end defining first and second junction openings, the first junction opening being disposed in spaced relationship to the second junction opening, the inlet conduit defining an inlet passage extending between the inlet opening and the first and second junction openings; a first outlet conduit in fluid communication with the first junction opening of the inlet conduit, the first outlet conduit including a discharge end defining a first discharge opening; a second outlet conduit in fluid communication with the second junction opening of the inlet conduit, the second outlet conduit including a discharge end defining a second discharge opening; and a junction portion disposed at the junction end of the inlet conduit, the junction portion disposed between the first junction opening and the second junction opening; wherein the inlet conduit includes a contoured portion that defines a flow restriction in the inlet passage adjacent the junction portion, the contoured portion defining first and second guide channels, the flow restriction disposed laterally between the first and second guide channels along a transverse axis substantially perpendicular to the main flow axis, the first and second guide channels each having a cross-sectional area greater than the cross-sectional area of the flow restriction, the flow restriction having a maximum height along a height axis, the height axis being perpendicular to both the main flow axis and the transverse axis, and the first and second guide channels each having a maximum height along the height axis which is larger than the maximum height of the flow restriction. 14. The flow splitter of claim 13 , wherein the inlet opening of the inlet conduit has a cross-sectional area, the fir