A system and method to minimize flow induced vibration in a gas turbine exhaust is provided. The system includes a turbine exhaust manifold connected to a turbine exhaust cylinder establishing a fluid flow path, the fluid flow path bounded radially outward by an outer cylindrical surface and bounded
A system and method to minimize flow induced vibration in a gas turbine exhaust is provided. The system includes a turbine exhaust manifold connected to a turbine exhaust cylinder establishing a fluid flow path, the fluid flow path bounded radially outward by an outer cylindrical surface and bounded radially inward by an inner cylindrical surface. At least one tangential strut is arranged between the outer cylindrical surface and the inner cylindrical surface. A trailing edge full span flap is removable secured behind the trailing edge of the tangential strut in a fluid flow direction and extending between the outer cylindrical surface and the inner cylindrical surface where the full span flap minimizes vortex shedding of the fluid flow from the tangential strut.
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1. A system to minimize flow induced vibration in a gas turbine exhaust, comprising: a turbine exhaust manifold connected to a turbine exhaust cylinder establishing a fluid flow path, the fluid flow path bounded radially outward by an outer cylindrical surface and bounded radially inward by an inner
1. A system to minimize flow induced vibration in a gas turbine exhaust, comprising: a turbine exhaust manifold connected to a turbine exhaust cylinder establishing a fluid flow path, the fluid flow path bounded radially outward by an outer cylindrical surface and bounded radially inward by an inner cylindrical surface;a tangential strut arranged between the outer cylindrical surface and the inner cylindrical surface; anda trailing edge full span flap removably secured behind a trailing edge of the tangential stmt in a fluid flow direction and extending between the outer cylindrical surface and the inner cylindrical surface, wherein the full span flap is configured to minimize vortex shedding of the fluid flow from the tangential strut,wherein the trailing edge full span flap includes a hollow rectangular box shape including two radial edges and two axial edges, andwherein the radial edges, extending radially with respect to a rotor centerline, of the trailing edge full span flap are rounded to promote a smooth aerodynamic fluid flow. 2. The system as claimed in claim 1, wherein within the hollow rectangular box shape a radially extending stiffening rib is disposed. 3. The system as claimed in claim 1, wherein the trailing edge full span flap includes a first axial edge and a second axial edge, the first axial edge extending axially with respect to the rotor centerline along the outer cylindrical surface and the second axial edge extending axially with respect to the rotor centerline along the inner cylindrical surface, andwherein the first axial edge is longer than the second axial edge. 4. The system as claimed in claim 3, wherein the first and second axial edges are slideably attached to the outer cylindrical surface and the inner cylindrical surface, respectively. 5. The system as claimed 4, wherein the first and second axial edges are slideably attached to the outer cylindrical surface and the inner cylindrical surface, respectively, using a flexible attachment bracket. 6. The system as claimed in claim 5, wherein the flexible attachment bracket includes a plurality of elongated holes, a first plurality of elongated holes and a second plurality of elongated holes through which a plurality of corresponding fasteners are inserted and secured in order to attach the full span flap to the outer cylindrical surface or the inner cylindrical surface. 7. The system as claimed in claim 6, wherein a first plurality of fasteners are each inserted through the first plurality of elongated holes, through a hole in the wall thickness of the full span flap and through a hole in a nut plate,wherein each fastener of the first plurality of fasteners is secured to the nut plate with a securing means. 8. The system as claimed in claim 7, wherein the nut plate includes a groove such that the securing means is prevented from antirotating. 9. The system as claimed in claim 6, wherein the plurality of corresponding fasteners slide within the corresponding elongated hole to accommodate the differential thermal growth of the full span flap, the outer cylindrical surface, and the inner cylindrical surface. 10. The system as claimed in claim 6, wherein the first plurality of elongated holes enable correct positioning of the full span flap within the fluid flow path by allowing for vertical adjustability of the full span flap. 11. The system as claimed in claim 6, wherein each fastener protrudes through the corresponding elongated hole of the second plurality of elongated holes and is secured to the inner cylindrical surface or the outer cylindrical surface with a spherical joint, wherein the spherical joint accommodates thermal distortion of the inner cylindrical surface or the outer cylindrical surface such that each fastener is positioned normally to the fluid flow path. 12. A method to minimize flow induced vibration in a gas turbine exhaust system, comprising: disposing a full span flap between an outer cylindrical surface and an inner cylindrical surface of a fluid flow path; andremovably securing the full span flap behind a trailing edge of a tangential strut by coupling the full span flap to the outer cylindrical surface and the inner cylindrical surface using a plurality of flexible attachment brackets,providing the full span flap with a hollow rectangular box shape including two rounded radial edges and two axial edges,wherein the flow path is bounded radially outward by the outer cylindrical surface and bounded radially inward by the inner cylindrical surface,wherein the full span flap is configured to minimize vortex shedding of the fluid flow from the tangential strut,wherein each rounded radial edge extends radially, with respect to the rotor centerline, from the outer cylindrical surface to the inner cylindrical surface, andwherein each axial edge extends axially, with respect to the rotor centerline, along the inner cylindrical surface or the outer cylindrical surface. 13. The method as claimed in claim 12, wherein the two radial edges are rounded to promote a smooth aerodynamic fluid flow. 14. The method as claimed in claim 12, wherein the securing includes inserting a plurality of fasteners through a plurality of corresponding elongated holes within each flexible attachment bracket of the plurality of flexible attachment brackets and securing the plurality of fasteners with a securing means such that a first plurality of fasteners attaches a first flexible attachment bracket of the plurality of flexible attachment brackets to the full span flap and a second plurality of fasteners attaches a second flexible attachment bracket of the plurality of flexible attachment brackets to the outer cylindrical surface or the inner cylindrical surface. 15. The method as claimed in claim 14, wherein each fastener of the plurality of fasteners slide within an elongated hole of the plurality of corresponding elongated holes to accommodate the differential thermal growth of the full span flap, the outer cylindrical surface, and the inner cylindrical surface. 16. The method as claimed in claim 14, wherein a nut plate is positioned on an opposing surface to a surface of the full span flap to which each flexible attachment bracket of the plurality of flexible attachment brackets abuts and/or to an opposing surface to the surface of the inner cylindrical surface or the outer cylindrical surface to which each flexible attachment bracket of the plurality of flexible attachment brackets abuts,wherein a fastener of the plurality of fasteners protrudes through the nut plate, andwherein the securing means abuts the nut plate and secures the fastener to the nut plate. 17. The method as claimed in claim 16, wherein the securing includes disposing a spherical joint on the opposing surface of the outer cylindrical surface or the inner cylindrical surface through which the fastener protrudes, wherein the spherical joint is used to accommodate for distortion in the flow path such that each fastener is positioned normally to the fluid flow path. 18. The method as claimed in claim 16, comprising welding the nut plate to the opposing surface and the securing means to the nut plate.
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