Gas turbine exhaust diffuser with air injection

The invention claimed is: 1. A gas turbine system, comprising: an exhaust processing system configured to process exhaust gas generated by a gas turbine engine, the exhaust processing system comprising an exhaust diffuser configured to receive the exhaust gas from a turbine of the gas turbine engine and having an annular passage disposed between an outer annular wall and an inner wall defined by a center body; one or more struts extending radially between the inner wall and the outer annular wall, wherein each strut of the one or more struts is symmetric about a respective centerline axis of the strut; a fluid injection assembly disposed within the exhaust diffuser, wherein the fluid injection assembly comprises one or more fluid injection conduits disposed within the annular passage of the exhaust diffuser and comprising fluid injection holes configured to direct a fluid into a first mixing region of the exhaust diffuser, wherein at least one fluid injection conduit of the one or more fluid injection conduits extends radially between the inner wall and the outer annular wall and a respective cross-section of the at least one fluid injection conduit is symmetric about an axially extending plane of the at least one fluid injection conduit, wherein each of the one or more fluid injection conduits is coupled to a downstream portion of a respective strut of the one or more struts, wherein the fluid injection assembly comprises a central hub coupled to the one or more fluid injection conduits and disposed on a downstream end of the center body of the exhaust diffuser, wherein a diameter of the central hub decreases in a direction away from the downstream end of the center body such that the central hub has a convex outer surface, and wherein the central hub comprises a central fluid injection hole disposed on the apex of the convex outer surface of the central hub, the central fluid injection hole being oriented to inject fluid along a downstream direction of the exhaust diffuser, wherein the central fluid injection hole is fluidly coupled to at least one of the one or more fluid injection conduits, wherein each of the one or more fluid injection conduits comprises a first side abutting a respective strut of the one or more struts, and wherein each of the one or more fluid injection conduits decreases in width from the first side in the downstream direction. 2. The system of claim 1 , wherein each of the one or more fluid injection conduits has a conduit wall having a downstream wall portion, the downstream wall portion aligns with a base of the central hub, and the downstream wall portion and the base are axially spaced downstream from the downstream end of the center body. 3. The system of claim 1 , wherein a dimension of the fluid injection holes of the one or more fluid injection conduits varies from the central hub to the outer annular wall along a radial length of the respective fluid injection conduit. 4. The gas turbine system of claim 1 , comprising an additional fluid injection assembly coupled to the outer annular wall of the exhaust diffuser, wherein the additional fluid injection assembly comprises a fluid passage disposed circumferentially about a centerline diffuser axis of the exhaust diffuser, and wherein the fluid passage is positioned downstream of the central hub and adjacent to a downstream end of the exhaust diffuser, wherein the additional fluid injection assembly is configured to direct additional cooling fluid into a second mixing region of the exhaust diffuser that is downstream from the first mixing region. 5. The gas turbine system of claim 4 , wherein the additional fluid injection assembly comprises a circumferential conduit having the fluid passage, and the circumferential conduit is coupled directly to the outer annular wall circumferentially about the centerline diffuser axis. 6. The system of claim 1 , wherein each of the one or more struts comprise a cylindrical strut. 7. An exhaust diffuser, comprising: a center body extending at least a portion of a length of the exhaust diffuser; an outer annular wall circumferentially surrounding an inner wall defined by the center body to define an annular passage, wherein the annular passage is configured to receive an exhaust gas from a turbine of a gas turbine engine; a plurality of support struts extending from the inner wall to the outer annular wall, wherein each support strut of the plurality of support struts is symmetric about a respective centerline axis of the support strut; and a fluid injection assembly comprising a plurality of fluid injection conduits, wherein at least one fluid injection conduit of the plurality of fluid injection conduits extends radially between the inner wall and the outer annular wall and a respective cross-section of the at least one fluid injection conduit is symmetric about an axially extending plane of the at least one fluid injection conduit, wherein each fluid injection conduit of the plurality of fluid injection conduits is coupled to a downstream portion of one of the plurality of support struts, wherein each fluid injection conduit of the plurality of fluid injection conduits comprises one or more fluid injection holes configured to supply a fluid into a region of the exhaust diffuser downstream from the respective one of the plurality of support struts, wherein each fluid injection conduit of the plurality of fluid injection conduits comprises a first side abutting a respective support strut of the plurality of support struts, and wherein each fluid injection conduit of the plurality of fluid injection conduits decreases in width from the first side in a downstream direction. 8. The exhaust diffuser of claim 7 , wherein the fluid injection assembly comprises a central hub coupled to the center body, wherein the central hub has a base adjacent to the center body, a cross-sectional area that gradually decreases in the downstream direction away from the base to an apex, and a central opening disposed from the base to the apex, wherein the apex and the central opening are centered along a central axis of the center body. 9. The exhaust diffuser of claim 7 , wherein each of the one or more fluid injection conduits has opposite sides that are angled toward one another in the downstream direction. 10. The exhaust diffuser of claim 7 , wherein each of the plurality of fluid injection conduits overlaps a downstream end of the center body of the exhaust diffuser. 11. The exhaust diffuser of claim 7 , comprising an additional fluid injection assembly disposed downstream from the fluid injection assembly, wherein the additional fluid injection assembly comprises a circumferential conduit having a fluid passage, the circumferential conduit is coupled directly to the outer annular wall circumferentially about a centerline diffuser axis of the exhaust diffuser, and the circumferential conduit comprises a plurality of additional fluid injection holes. 12. The diffuser of claim 7 , wherein a respective diameter of each of the plurality of fluid injection holes varies in a radial direction between the inner wall and the outer annular wall of the exhaust diffuser. 13. A system, comprising: an exhaust diffuser, comprising: a center body comprising a first wall extending about a central axis; an exhaust passage disposed circumferentially about the first wall; a second wall disposed circumferentially about the exhaust passage; a plurality of hollow struts extending radially between the first and second walls, wherein each of the plurality of hollow struts is a cylindrical hollow strut; and a plurality of fluid injection conduits, wherein each of the plurality of fluid inj