System and method for diffuser AFT plate assembly

The invention claimed is: 1. A method comprising: inserting axially a radially interior surface of an aft plate assembly into a circumferential groove of an inner barrel of a diffuser section downstream from a turbine section of a gas turbine along a rotational axis, wherein inserting axially comprises inserting the aft plate assembly into a first circumferential orientation relative to the circumferential groove, and the circumferential groove is disposed on a radially exterior surface of the inner barrel; rotating the aft plate assembly about an axis circumferentially within the circumferential groove from the first circumferential orientation to a second circumferential orientation, wherein the inner barrel is configured to axially retain the aft plate assembly when the aft plate assembly is disposed in the second circumferential orientation. 2. The method of claim 1 , wherein the aft plate assembly comprises an annular aft plate assembly extending circumferentially about an axis of the inner barrel, and the circumferential groove extends circumferentially about the axis. 3. The method of claim 1 , wherein the aft plate assembly comprises a plurality of aft plate segments. 4. The method of claim 3 , comprising joining the plurality of aft plate segments together, wherein joining comprises welding, brazing, fusing, fastening, or any combination thereof. 5. The method of claim 1 , wherein the aft plate assembly comprises a first plurality of notches and a first plurality of ridges on the radially interior surface, the circumferential groove comprises a downstream lip, and the downstream lip comprises a second plurality of notches and a second plurality of ridges. 6. The method of claim 5 , wherein inserting axially the radially interior surface of the aft plate assembly into the circumferential groove of the inner barrel comprises inserting the first plurality of ridges through the second plurality of notches, and the second plurality of notches is configured to axially retain the first plurality of notches when the aft plate assembly is disposed in the second circumferential orientation. 7. The method of claim 5 , wherein a radial ridge height between a root of a respective notch of the first plurality of notches and a crest of an adjacent respective ridge of the first plurality of ridges is less than a radial height of an upstream lip of the circumferential groove, wherein the first plurality of ridges are disposed between the upstream lip and the second plurality of ridges when the aft plate assembly is disposed in the second circumferential orientation. 8. The method of claim 1 , comprising coupling a plurality of poles between the aft plate assembly and a forward plate of the diffuser section. 9. The method of claim 1 , wherein the first circumferential orientation is circumferentially offset about an axis of the inner barrel from the second circumferential orientation by less than approximately 30 degrees. 10. A system comprising: a diffuser section configured to be positioned downstream from a turbine section to receive an exhaust gas from the turbine section, wherein the diffuser section comprises: an aft plate assembly comprising a radially interior surface, wherein the radially interior surface comprises a first notch and a first ridge; and an inner barrel comprising a circumferential groove disposed at least partially about an axis on a radially exterior surface, wherein the circumferential groove comprises: an upstream lip; and a downstream lip comprising a second notch and a second ridge, wherein the first ridge is configured to be disposed in the circumferential groove when the aft plate assembly is disposed in a first circumferential orientation and a second circumferential orientation relative to the inner barrel, the first ridge is axially aligned along the axis with the second notch in the first circumferential orientation, and the first ridge is circumferentially offset about the axis relative to the second notch in the second circumferential orientation. 11. The system of claim 10 , wherein the aft plate assembly comprises a plurality of aft plate segments. 12. The system of claim 11 , wherein the plurality of aft plate segments are joined together to form an annular aft plate assembly, and the plurality of aft plate segments are joined together by at least one of a welded joint, a brazed joint, a fused joint, and a fastened joint, or any combination thereof. 13. The system of claim 10 , wherein the radially interior surface comprises a first plurality of notches and a first plurality of ridges, the radially exterior surface comprises a second plurality of notches and a second plurality of ridges, wherein the first plurality of ridges is axially aligned with the second plurality of notches in the first circumferential orientation, and the first plurality of ridges is axially aligned with the second plurality of ridges in the second circumferential orientation. 14. The system of claim 10 , wherein a radial ridge height between a root of the first notch and a crest of the first ridge is less than a radial height of the upstream lip of the circumferential groove. 15. The system of claim 10 , wherein the diffuser section comprises: a forward plate; and a plurality of poles coupled to the forward plate and the aft plate assembly when the aft plate assembly is disposed in the second circumferential orientation. 16. The system of claim 10 , wherein the first circumferential orientation is circumferentially offset from the second circumferential orientation by less than approximately 30 degrees. 17. A system comprising: a diffuser section configured to be positioned downstream from a turbine section to receive an exhaust gas from the turbine section, wherein the diffuser section comprises: a forward plate; an aft plate assembly comprising a radially interior surface, wherein the radially interior surface comprises a first plurality of notches and a first plurality of ridges; and an inner barrel comprising a circumferential groove disposed at least partially about an axis on a radially exterior surface, wherein the circumferential groove comprises: an upstream lip; and a downstream lip comprising a second plurality of notches and a second plurality of ridges, and a plurality of poles coupled between the forward plate and the aft plate assembly when the aft plate assembly is disposed in a second circumferential configuration relative to the inner barrel; wherein the first plurality of ridges is configured to be disposed in the circumferential groove when the aft plate assembly is disposed in a first circumferential orientation and the second circumferential orientation relative to the inner barrel, the first plurality of ridges is axially aligned along the axis with the second plurality of notches in the first circumferential orientation, and the first plurality of ridges is circumferentially offset about the axis relative to the second plurality of notches in the second circumferential orientation. 18. The system of claim 17 , wherein the aft plate assembly comprises a plurality of aft plate segments joined together to form an annular aft plate assembly, and the plurality of aft plate segments are joined together by at least one of a welded joint, a brazed joint, a fused joint, and a fastened joint, or any combination thereof. 19. The system of claim 17 , wherein a crest of a first ridge of the first plurality of ridges is configured to interface with a root of the circumferential groove at a 12 o′clock positio