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A valve seat device including a valve seat and a seat stiffener, the seat stiffener formed from a non-elastomeric material and positioned on a radially outward-facing surface of the valve seat, an outer diameter of the radially outward-facing surface of the valve seat being greater than an inner dia

A valve seat device including a valve seat and a seat stiffener, the seat stiffener formed from a non-elastomeric material and positioned on a radially outward-facing surface of the valve seat, an outer diameter of the radially outward-facing surface of the valve seat being greater than an inner diameter of the seat stiffener.

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1. A valve seat device for a valve, the device comprising: a valve seat defining a groove in a radially outward-facing surface of the valve seat, a semicircular bottom portion defined in the groove, portions of the radially outward-facing surface defined in the valve seat at opposite axial ends of t

1. A valve seat device for a valve, the device comprising: a valve seat defining a groove in a radially outward-facing surface of the valve seat, a semicircular bottom portion defined in the groove, portions of the radially outward-facing surface defined in the valve seat at opposite axial ends of the groove, the radially outward-facing surface angled with respect to a horizontal axis of the valve when the valve seat is aligned concentrically about the horizontal axis and in an undeformed condition; anda ring-shaped seat stiffener, the seat stiffener formed from a non-elastomeric material;comprising a solid cross-section, the cross-section taken along an axial centerline of the valve seat device;positioned on the radially outward-facing surface of the valve seat, an outer diameter of the radially outward-facing surface of the valve seat being greater than an inner diameter of the seat stiffener; andpositioned radially inward from a radially inward-facing surface of the valve seat;locked in an axial direction in the groove of the valve seat, a width of the groove in an axial direction and a radial depth of the groove in a radial direction relative to the horizontal axis of the valve substantially equal to the diameter of the seat stiffener, wherein the radially outward-facing surface is angled with respect to the horizontal axis of the valve to facilitate assembly of the seat stiffener on and removal of the seat stiffener from the valve seat;removable from the valve seat; andconfigured to prevent radial expansion of the valve seat. 2. The device of claim 1, further comprising a valve body and a retention ring configured to hold the valve seat in place against a seat mating surface of the valve body, the seat stiffener separated from the retention ring when the valve seat is in the undeformed condition. 3. The device of claim 1, wherein the seat stiffener is welded into an annular ring from a single length of wire. 4. The device of claim 1, wherein a thickness of the seat stiffener in an axial direction parallel to the horizontal axis is less than about 25% of an overall axial height of the valve seat. 5. The device of claim 1, wherein the seat stiffener is formed from steel. 6. The device of claim 1, wherein the seat stiffener is formed from a material having a modulus of elasticity of at least about 15,000,000 psi. 7. The device of claim 6, wherein the seat stiffener is formed from a material having a modulus of elasticity of about 28,000,000 psi. 8. The device of claim 1, wherein the valve seat is formed from polytetrafluoroethylene (PTFE). 9. The device of claim 1, further comprising a retention ring, wherein an inner diameter of a radially inward-facing surface of the retention ring that is adjacent to and facing the seat stiffener is greater than an outer diameter of the radially outward-facing surface of the valve seat. 10. The device of claim 1, wherein the seat stiffener comprises a circular cross-section, the cross-section taken along an axial centerline of the valve seat device. 11. The device of claim 1, wherein the valve disc of the valve is configured to rotate about the vertical axis. 12. A valve comprising: a valve body;a valve disc defining a sealing surface defining a first radius defining a center, the valve disc configured to rotate about a vertical axis of the valve; anda valve seat device, the valve seat device including a valve seat defining a sealing end and a mounting end distal from the sealing end; anda seat stiffener, the seat stiffener formed from a non-elastomeric wire material;comprising a solid cross-section, the cross-section taken along an axial centerline of the valve seat device;positioned on a radially outward-facing surface of the valve seat, an outer diameter of the radially outward-facing surface of the valve seat being greater than an inner diameter of the seat stiffener, the valve seat defining a groove in the radially outward-facing surface of the valve seat, a semicircular bottom portion defined in the groove, portions of the radially outward-facing surface defined in the valve seat at opposite axial ends of the groove; andpositioned radially inward from a radially inward-facing surface of the valve seat. 13. The valve of claim 12, wherein the valve is a butterfly valve. 14. The valve of claim 12, further comprising a retention ring configured to hold the valve seat in place against a seat mating surface of the valve body, wherein an inner diameter of a radially inward-facing surface of the retention ring that is adjacent to and facing the seat stiffener is greater than an outer diameter of the radially outward-facing surface of the valve seat, the seat stiffener separated from the retention ring when the valve seat is in an undeformed condition. 15. The valve of claim 12, wherein the sealing portion of the inner surface of the valve seat and the sealing surface of the valve disc are angled in cross-section with respect to the horizontal axis of the valve by the same angle. 16. A method of sealing a valve, the method comprising: closing the valve;contacting a sealing portion of an inner surface of a valve seat of the valve with a sealing surface of a valve disc of the valve, the sealing portion of the inner surface of the valve seat and the sealing surface of the valve disc being angled in cross-section with respect to a horizontal axis of the valve by the same angle; andpreventing radial expansion of the valve seat of the valve with a seat stiffener, the seat stiffener formed from a non-elastomeric wire material comprising a solid cross-section and positioned in a groove defined in a radially outward-facing surface of the valve seat, portions of the radially outward-facing surface defined in the valve seat at opposite axial ends of the groove, an outer diameter of the radially outward-facing surface of the valve seat greater than an inner diameter of the seat stiffener and angled with respect to a horizontal axis of the valve when the valve seat is aligned concentrically about the horizontal axis and in an undeformed condition, a radially inward-facing portion of a retaining ring of the valve defining a channel between the retaining ring and the valve seat. 17. The method of claim 16, wherein preventing radial expansion of the valve seat includes maintaining a diameter of the seat stiffener. 18. The method of claim 16, wherein a width of the groove in an axial direction and a radial depth of the groove in a radial direction relative to the horizontal axis are substantially equal to the diameter of the seat stiffener. 19. The method of claim 16, wherein the seat stiffener is positioned radially inward from a radially inward-facing surface of the valve seat. 20. A method of assembling a valve seat device, the method comprising: aligning a seat stiffener of the valve seat device with a valve seat of the valve seat device along a common horizontal axis;contacting a radially outward-facing surface of the valve seat with the seat stiffener, the radially outward-facing surface of the valve seat angled with respect to the horizontal axis when in an undeformed condition; andinserting the seat stiffener into a groove defined in the radially outward-facing surface of the valve seat such that the seat stiffener is fixed in the groove of the valve seat in an axial direction aligned with the horizontal axis, portions of the radially outward-facing surface defined in the valve seat at opposite axial ends of the groove. 21. The method of claim 20, wherein a width of the groove in an axial direction and a radial depth of the groove in a radial direction relative to the horizontal axis are substantially equal to a diameter of the seat stiffener. 22. The method of claim 20, further comprising locking the seat stiffener in the groove of the valve seat in an axial direction of the valve seat. 23. The method of claim 20, further comprising removing the seat stiffener from the valve seat.