Steam turbomachine valve having a valve member and seal assembly

What is claimed is: 1. A steam turbomachine valve comprising: a valve body including an inlet portion, an outlet portion, and an interior portion, the interior portion including an inner wall; a valve member slidingly disposed within the interior portion of the valve body, the valve member including an outer surface; a seal element mounted to and extending about, the outer surface of the valve member, the seal element being spaced from the inner wall by a gap; and a seal assembly mounted to the inner wall, the seal assembly spanning the gap and being configured and disposed to contact the seal element of the valve member, wherein the seal assembly comprises a floating seal, a first seal support, and a second seal support, the floating seal being arranged between the first and second seal supports and each of the first and second seal supports extend into, and are constrained by, the inner wall. 2. The steam turbomachine valve according to claim 1 ., wherein the seal assembly comprises a floating seal having a plurality of seal members. 3. The steam turbomachine valve according to claim 1 , wherein the seal assembly is formed from a nickel-chromium based superalloy. 4. The steam turbomachine valve according to claim 3 , wherein the valve member is formed from a high alloy stainless steel including a chromium content of between 10% and 16% and the seal element is formed from a nickel-chromium based superalloy. 5. A steam turbomachine comprising: a high pressure (HP) turbine portion; an intermediate pressure (IP) turbine portion operatively connected to the HP turbine portion; a low pressure (LP) turbine portion operatively connected to at least one of the HP turbine portion and the IP turbine portion; and a steam turbomachine valve according to claim 1 fluidically connected to at least one of the HP turbine portion, IP turbine portion, and LP turbine portion. 6. The steam turbomachine according to claim 5 , wherein the floating seal comprises a plurality of seal members. 7. The steam turbomachine according to claim 5 , wherein the valve member is formed from a high alloy stainless steel including a chromium content of between 10% and 16% and each of the seal element and plurality of seal members is formed from a nickel-chromium based superalloy. 8. The steam turbomachine according to claim 5 , further comprising: one of a heat recovery steam generator (HRSG) and a boiler operatively connected to each of the HP turbine portion, IP turbine portion, and LP turbine portion. 9. The steam turbomachine according to claim 8 , wherein the valve member is formed from a high alloy stainless steel including a chromium content of between 10% and 16% and includes a first interior portion separated from a second interior portion through a all having a first surface and an opposing second surf lice, at least one nickel-chromium based superalloy strengthening member mounted to one of the first and second surfaces of the wall, and a valve stem is operatively connected to the at least one nickel-chromium based superalloy strengthening member. 10. A steam turbomachine valve comprising: a valve body including an inlet portion, an outlet portion, and an interior portion, the interior portion including an inner wall; a valve member slidingly disposed within the interior portion of the valve body, the valve member including an outer surface; a seal element mounted to, and extending about, the outer surface of the valve member, the seal element being spaced from the inner wall by a gap; and a seal assembly mounted to the inner wall, the seal assembly spanning the gap and being configured and disposed to contact the seal element of the valve member, wherein the valve member surface and an opposing second surface and further comprising at least one strengthening member mounted to one of the first and second surfaces of the wall, wherein the at least one strengthening member includes a first strengthening member mounted to the first surface of the wall and a second strengthening member mounted to the second surface of the wall, each of the first and second strengthening members being formed from a nickel-chromium based superalloy. 11. The steam turbomachine valve according to claim 10 , further comprising: a valve stem operatively connected to the valve member through the at least one strengthening member. 12. The steam turbomachine valve according to claim 10 , wherein the seal assembly comprises a floating seal having a plurality of seal members. 13. The steam turbomachine valve according to claim 10 , wherein the seal assembly is formed from a nickel-chromium based superalloy. 14. The steam turbomachine valve according to claim 13 , wherein the valve member is formed from a high alloy stainless steel including a chromium content of between 10% and 16% and the seal element is formed from a nickel-chromium based superalloy. 15. A steam turbomachine comprising: a high pressure (HP) turbine portion; an intermediate pressure (IP) turbine portion operatively connected to the HP turbine portion; a low pressure (LP) turbine portion operatively connected to at least one of the HP turbine portion and the IP turbine portion; and a steam turbomachine valve according to claim 10 fluidically connected to at least one of the HP turbine portion, IP turbine portion, and LP turbine portion. 16. A steam turbomachine comprising: a high pressure (HP) turbine portion; an intermediate pressure UP) turbine portion operatively connected to the HP turbine portion; a low pressure (LP) turbine portion operatively connected to at least one of the HP turbine portion and the IP turbine portion; and a steam turbomachine valve according to claim 12 fluidically connected to at least one of the HP turbine portion, IP turbine portion, and LP turbine portion. 17. A steam turbomachine comprising: a high pressure (HP) turbine portion; an intermediate pressure (IP) turbine portion operatively connected to the HP turbine portion; a low pressure (LP) turbine portion operatively connected to at least one of the HP turbine portion and the IP turbine portion; and a steam turbomachine valve according to claim 13 fluidically connected to at least one of the HP turbine portion, IP turbine portion, and LP turbine portion. 18. A steam turbomachine comprising: a high pressure (HP) turbine portion; an intermediate pressure (IP) turbine portion operatively connected to the HP turbine portion; a low pressure (LP) turbine portion operatively connected to at least one of the HP turbine portion and the IP turbine portion; and steam turbomachine valve according to claim 14 fluidically connected to at least one of the HP turbine portion, IP turbine portion, and LP turbine portion. 19. The steam turbomachine according to claim 15 , further comprising: one of a heat recovery steam generator (HRSG) and a boiler operatively connected to each of the HP turbine portion, IP turbine portion, and LP turbine portion.