Fluid routing plug

The invention claimed is: 1. A fluid routing plug, comprising: a body having a suction surface and an opposed discharge surface, in which the suction and discharge surfaces are joined by an outer intermediate surface; and in which the body has a central longitudinal axis that extends through the suction and discharge surfaces; a plurality of suction fluid passages formed in the body, each of the plurality of suction fluid passages interconnecting the intermediate surface and the suction surface of the body; a plurality of discharge fluid passages formed in the body, each of the plurality of discharge fluid passages interconnecting the suction surface and the discharge surface of the body; a first recessed cavity formed in the suction surface; a first annular insert disposed within the first recessed cavity and having a first tapered surface; a second recessed cavity formed in the discharge surface and comprising a base surrounded by a side wall; and a second annular insert disposed within the second recessed cavity and having a second tapered surface, at least a portion of the first annular insert engaging the base; in which the plurality of discharge fluid passages open at the base; and in which an outer diameter of the body surrounding the first recessed cavity and the first tapered surface is greater than an outer diameter of the body surrounding the second recessed cavity and the second tapered surface. 2. The fluid routing plug of claim 1 , in which the first annular insert is made of a material that is harder than that from which the body is formed. 3. The fluid routing plug of claim 1 , in which the second annular insert is made of a material that is harder than that from which the body is formed. 4. The fluid routing plug of claim 1 , in which the second annular insert surrounds an opening of each of the plurality of discharge fluid passages in the second recessed cavity. 5. The fluid routing plug of claim 1 , further comprising: an axially-blind bore formed in the first recessed cavity of the body; in which the interconnection between the intermediate surface of the body and the suction surface is formed in part within the axially-blind bore. 6. The fluid routing plug of claim 5 , in which the first annular insert surrounds an opening of the axially-blind bore in the first recessed cavity of the body. 7. A fluid end section, comprising: a housing having opposed first and second outer surfaces; a horizontal bore formed within the housing and interconnecting the opposed first and second outer surfaces; the fluid routing plug of claim 1 installed within the horizontal bore; and a suction valve installed within the horizontal bore and engaging the first tapered surface of the first annular insert. 8. A fluid end section, comprising: a housing having opposed first and second outer surfaces; a horizontal bore formed within the housing and interconnecting the opposed first and second outer surfaces; the fluid routing plug of claim 1 installed within the horizontal bore; a suction valve installed within the horizontal bore and engaging the first tapered surface of the first annular insert; and a discharge valve installed within the horizontal bore and engaging the second tapered surface of the second annular insert. 9. The fluid routing plug of claim 1 , in which each of the plurality of discharge fluid passages opens on the suction surface at a first opening, together forming a plurality of first openings; and in which the plurality of first openings surround the first annular insert on the suction surface of the body. 10. The fluid routing plug of claim 1 , in which the first recessed cavity comprises a base surrounded by a side wall. 11. The fluid routing plug of claim 1 , in which the first annular insert is interference fit within the first recessed cavity. 12. A fluid routing plug, comprising: a body having a suction surface and an opposed discharge surface, in which the suction and discharge surfaces are joined by an outer intermediate surface; and in which the body has a central longitudinal axis that extends through the suction and discharge surfaces; a plurality of suction fluid passages formed in the body, each of the plurality of suction fluid passages interconnecting the intermediate surface and the suction surface of the body; a plurality of discharge fluid passages formed in the body, each of the plurality of discharge fluid passages interconnecting the suction surface and the discharge surface of the body; a first recessed cavity formed in the discharge surface and comprising a base surrounded by a side wall; and a first annular insert disposed within the first recessed cavity and having a first tapered surface, at least a portion of the first annular insert engaging the base; and in which the plurality of discharge fluid passages open at the base. 13. The fluid routing plug of claim 12 , in which the first annular insert is made of a material that is harder than that from which the body is formed. 14. The fluid routing plug of claim 12 , further comprising: a second recessed cavity formed in the suction surface; and a second annular insert disposed within the second recessed cavity and having a second tapered surface. 15. The fluid routing plug of claim 14 , in which each of the plurality of discharge fluid passages opens on the suction surface at a first opening, together forming a plurality of first openings; and in which the plurality of first openings surround the second annular insert on the suction surface of the body. 16. The fluid routing plug of claim 14 , in which the second annular insert is made of a material that is harder than that from which the body is formed. 17. The fluid routing plug of claim 12 , further comprising: an axially-blind bore formed in the first recessed cavity of the body; in which the interconnection between the intermediate surface of the body and the suction surface is formed in part within the axially-blind bore. 18. The fluid routing plug of claim 12 , in which the first annular insert is interference fit within the first recessed cavity.