Bi-directional rotary valve

What is claimed is: 1. A bi-directional cryogenic rotary valve seal assembly comprising: an annular body having a sealing surface defining an aperture, and a hub, wherein the hub further comprises a radially outer surface, the radial outer surface having a recess groove extending radially inward from the radial outer surface, wherein a first sealing element is positioned within the recess groove, wherein the sealing surface having a plurality of lobes projecting therefrom, each of the plurality of lobes extending radially around the sealing surface, wherein at least one of the plurality of lobes has a U-shaped cross-sectional profile; and an annular member radially disposed around at least a portion of the body, the annular member comprising a material having a coefficient of thermal expansion of at least 30 m/m/° C., wherein the annular member has a generally crescent cross-sectional shape along a shared central axis with the annular member. 2. The valve seal assembly according to claim 1 , wherein the annular body further comprises: a first arm extending from the hub; and a second arm extending from the hub, wherein the hub, the first arm, and the second arm are coaxial, and wherein the sealing surface is disposed on a combination of the hub and an inner surface of the first arm. 3. The seal assembly according to claim 2 , wherein the second arm further comprises a flange, the flange having a distal cavity comprising a second sealing element positioned therein. 4. The valve seal assembly according to claim 1 , wherein a first of the plurality of lobes is positioned on the hub and a second of the plurality of lobes is positioned on the first arm. 5. The valve seal assembly according to claim 1 , further comprising an annular intermediary member radially positioned between at least a portion of the annular body and the annular member. 6. The valve seal assembly according to claim 5 , wherein the annular intermediary member comprises a garter spring. 7. The valve seal assembly according to claim 5 , wherein the radially outer surface of the first arm comprises a channel, and wherein an inner surface of the annular intermediary member is positioned at least partially within the channel. 8. The valve seal assembly according to claim 7 , wherein the annular intermediary member is adapted to rotate and slide within the channel. 9. A bi-directional valve comprising: a housing having an inner surface defining a fluid passageway; a disc member rotatably disposed within the fluid passageway, the disc member adapted to impede fluid flow through the fluid passageway; and a seal assembly positioned along the inner surface of the housing, the seal assembly comprising: an annular body having a sealing surface defining an aperture, and a hub, wherein the hub further comprises a radially outer surface, the radial outer surface having a recess groove extending radially inward from the radial outer surface, wherein a first sealing element is positioned within the recess groove, wherein the sealing surface having a plurality of lobes projecting therefrom, each of the plurality of lobes extending radially around the sealing surface, wherein at least one of the plurality of lobes has a U-shaped cross-sectional profile; and an annular member radially disposed around at least a portion of the body, the annular member comprising a material having a coefficient of thermal expansion of at least 30 m/m/° C., wherein the annular member has a generally crescent cross-sectional shape along a shared central axis with the annular member and an innermost surface forming an arcuate curve. 10. The valve according to claim 9 , wherein the annular body further comprises: a first arm extending from the hub; and a second arm extending from the hub, wherein the hub, the first arm, and the second arm are coaxial, and wherein the sealing surface is disposed on a combination of the hub and an inner surface of the first arm. 11. The valve according to claim 9 , further comprising an annular intermediary member radially positioned between at least a portion of the annular body and the annular member. 12. The valve according to claim 11 , wherein the radially outer surface of the first arm comprises a channel, and wherein the annular intermediary member is adapted to rotate and slide within the channel. 13. The valve according to claim 9 , wherein a first of the plurality of lobes is positioned on the hub and a second of the plurality of lobes is positioned on the first arm. 14. A bi-directional valve comprising: a housing having an inner surface defining a fluid passageway; a disc member rotatably disposed within the fluid passageway, the disc member adapted to impede fluid flow through the fluid passageway when positioned in a first orientation, and adapted to permit fluid flow through the fluid passageway when positioned in a second orientation, the second orientation being rotationally transposed from the first orientation by between 1 degrees and 90 degrees; and a seal assembly positioned along the inner surface of the housing adapted to form a fluid tight seal between the inner surface of the housing and a radially outer surface of the disc member, the seal assembly comprising: an annular body having a sealing surface defining an aperture, and a hub, wherein the hub further comprises a radially outer surface, the radial outer surface having a recess groove extending radially inward from the radial outer surface, wherein a first sealing element is positioned within the recess groove, the sealing surface having a plurality of lobes projecting therefrom, each of the plurality of lobes extending radially around the sealing surface, wherein at least one of the plurality of lobes has a U-shaped cross-sectional profile; an annular member radially disposed around at least a portion of the annular body, the annular member comprising a material having a coefficient of thermal expansion of at least 30 m/m/° C.; and an annular intermediary member positioned between the annular body and the annular member, wherein the annular member has a generally crescent cross-sectional shape along a shared central axis with the annular member. 15. The valve according to claim 14 , wherein the annular member, when measured at −160° C., provides the intermediary member with a radial inward force of no less than 10 N/cm 2 . 16. The valve according to claim 14 , wherein the annular member, when measured at about room temperature, provides the intermediary member with a radial inward force of no greater than 25 N/cm 2 . 17. The valve according to claim 14 , wherein the annular intermediary member comprises a garter spring.