Choked flow valve with clamped seat ring

The invention claimed is: 1. A fluid valve comprising: a valve body having a fluid inlet and a fluid outlet connected by a fluid passageway; a trim assembly disposed within the fluid passageway; and a fluid control member movably disposed within the fluid passageway, the fluid control member cooperating with the trim assembly to control fluid flow through the fluid passageway; wherein the trim assembly includes a clamped seat ring, the clamped seat ring including a convergent-divergent nozzle, a diverging portion of the nozzle being longer than a converging portion of the nozzle, wherein trim assembly includes a retainer that clamps the seat ring into the valve body, the retainer including an upper body portion and a skirt that extends away from the upper body portion, the skirt guiding movement of the fluid control member, wherein the retainer further includes a securement ring that is positioned adjacent to the seat ring, the seat ring being at least partially disposed between the securement ring and the valve body, and wherein the skirt is connected to the securement ring by a plurality of legs, at least one leg in the plurality of legs having an airfoil cross-sectional shape, and a trailing edge of the at least one leg having a sharp edge. 2. The fluid valve of claim 1 , wherein a leading edge of the at least one leg includes a break water having a sharp edge. 3. The fluid valve of claim 1 , wherein the airfoil cross-sectional shape maximizes laminar flow. 4. The fluid valve of claim 1 , wherein the plurality of legs includes between three and ten legs. 5. A choked flow clamped seat ring assembly for a choked flow fluid control valve, the assembly comprising: a seat ring retainer including an upper body portion, a skirt that extends away from the upper body portion, the skirt being adapted to guide movement of a fluid control member, a securement ring spaced apart from the skirt, and a plurality of legs connecting the securement ring to the skirt; and a seat ring, the seat ring including a converging nozzle and a diverging nozzle that meet at vena contracta, the diverging nozzle being longer that the converging nozzle; wherein the securement ring is adapted to clamp a portion of the seat ring against a valve body, and wherein at least one leg in the plurality of legs curves radially inward from the securement ring to the skirt. 6. The assembly of claim 5 , wherein at least one leg in the plurality of legs has an airfoil cross-sectional shape. 7. The assembly of claim 6 , wherein a leading edge of the leg includes a break water having a sharp edge. 8. The assembly of claim 6 , wherein a trailing edge of the leg has a sharp edge. 9. The assembly of claim 6 , wherein the airfoil cross-sectional shape maximizes laminar flow. 10. The assembly of claim 5 , wherein the plurality of legs includes between three and twelve legs. 11. The assembly of claim 5 , wherein the seat ring includes an annular shelf that is adapted to be clamped between the securement ring and a valve body. 12. A retainer for a choked flow clamped seat ring assembly, the retainer comprising: an upper body portion; a skirt that extends away from the upper body portion, the skirt being adapted to guide movement of a fluid control member; a securement ring spaced apart from the skirt; and a plurality of legs connecting the securement ring to the skirt, wherein at least one leg in the plurality of legs has an airfoil cross-sectional shape and a leading edge of the leg includes a break water having a sharp edge.