Fluid routing plug

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 suction fluid passages interconnecting the intermediate surface and the suction surface; and a plurality of discharge fluid slots formed in the body, each of the discharge fluid slots interconnecting the suction and discharge surfaces of the body; in which at least a portion of at least one of the discharge fluid slots intersects a plane that contains the central longitudinal axis of the body. 2 . The fluid routing plug of claim 1 , in which at least a portion of each of the discharge slots has an arced cross-sectional shape. 3 . The fluid routing plug of claim 1 , in which each of the discharge fluid slots opens on the suction surface at a first opening and opens on the discharge surface at a second opening; in which a position of the first and second openings is determined relative to a plane containing a line perpendicular to the central longitudinal axis; in which the first opening, when projected onto the plane, is positioned at a first distance from the central longitudinal axis and at a first angle relative to the line; and in which the second opening, when projected on the plane, is positioned at a second distance from the central longitudinal axis and at a second angle relative to the line. 4 . The fluid routing plug of claim 3 , in which the first and second distances are different. 5 . The fluid routing plug of claim 3 , in which the first and second angles are different. 6 . The fluid routing plug of claim 4 , in which the first and second angles are different. 7 . The fluid routing plug of claim 1 , in which the plurality of suction fluid passages and the plurality of discharge fluid slots do not intersect. 8 . The fluid routing plug of claim 1 , in which the plurality of discharge fluid slots open into a counterbore formed in the discharge surface of the body. 9 . The fluid routing plug of claim 1 , further comprising: an axially-blind bore formed in the suction surface of the body; in which interconnection between the intermediate surface of the body and the suction surface is formed within the axially-blind bore. 10 . The fluid routing plug of claim 1 , in which each of the suction fluid passages has a first longitudinal axis; and in which the first longitudinal axis does not intersect the central longitudinal axis of the body. 11 . 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 suction fluid passages interconnecting the intermediate surface and the suction surface; and a plurality of discharge fluid slots formed in the body, each of the discharge fluid slots interconnecting the suction and discharge surfaces of the body; and in which each of the discharge fluid slots opens on the suction surface at a first opening and opens on the discharge surface at a second opening; in which a position of the first and second openings is determined relative to a plane containing a line perpendicular to the central longitudinal axis; in which the first opening, when projected onto the plane, is positioned at a first distance from the central longitudinal axis and at a first angle relative to the line; and in which the second opening, when projected on the plane, is positioned at a second distance from the central longitudinal axis and at a second angle relative to the line. 12 . The fluid routing plug of claim 11 , in which the first and second distances are different. 13 . The fluid routing plug of claim 11 , in which the first and second angles are different. 14 . The fluid routing plug of claim 12 , in which the first and second angles are different. 15 . The fluid routing plug of claim 11 , in which at least a portion of each of the discharge fluid slots has an arced cross-sectional shape. 16 . The fluid routing plug of claim 11 , in which the plurality of suction fluid passages and the plurality of discharge fluid slots do not intersect. 17 . The fluid routing plug of claim 11 , in which the plurality of discharge fluid slots open into a counterbore formed in the discharge surface of the body. 18 . The fluid routing plug of claim ii, further comprising: an axially-blind bore formed in the suction surface of the body; in which interconnection between the intermediate surface of the body and the suction surface is formed within the axially-blind bore. 19 . The fluid routing plug of claim 11 , in which at least a portion of at least one of the discharge fluid slots intersects a plane that contains the central longitudinal axis of the body. 20 . The fluid routing plug of claim 11 , in which each of the suction fluid passages has a first longitudinal axis; and in which the first longitudinal axis does not intersect the central longitudinal axis.