A system, in certain embodiments, includes a lip seal having an outer diameter portion including an outer protrusion configured to contact a first seal interface, wherein the protrusion has a curved surface.
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1. A system, comprising: an underwater component; andan annular lip seal disposed within a bore of the underwater component, wherein the annular lip seal comprises: a first annular portion having a first seal interface, wherein the first seal interface comprises a first protrusion having a curved su
1. A system, comprising: an underwater component; andan annular lip seal disposed within a bore of the underwater component, wherein the annular lip seal comprises: a first annular portion having a first seal interface, wherein the first seal interface comprises a first protrusion having a curved surface configured to pivot and/or move along a first sealing surface to maintain a seal during misalignment of the annular lip seal, wherein the first protrusion is the only protrusion of the first annular portion configured to contact the first seal interface;a second annular portion having a second seal interface, wherein the second seal interface comprises at least two second protrusions configured to engage a second sealing surface, wherein each of the at least two second protrusions has an arcuate surface; andan intermediate annular portion connecting first ends of the first and second annular portions about an annular space, wherein second ends of the first and second annular portions are free to move toward and away from one another,wherein a first contact point of the first protrusion along the first sealing interface is positioned axially between respective second contact points of the at least two second protrusions with the second sealing interface. 2. The system of claim 1, wherein the curved surface has a radius of curvature within approximately plus or minus 10 percent of a radius of the bore of the underwater component. 3. The system of claim 1, wherein the first annular portion is an inner annular portion and the second annular portion is an outer annular portion. 4. The system of claim 1, wherein the first annular portion is an outer annular portion and the second annular portion is an inner annular portion. 5. The system of claim 1, wherein the underwater component comprises a subsea tree. 6. The system of claim 5, wherein the underwater component comprises a tree cap, a removable plug, or a combination thereof. 7. The system of claim 1, wherein the curved surface extends at least half an axial length of the first annular portion. 8. The system of claim 1, wherein the annular lip seal is formed from titanium or a nickel alloy. 9. The system of claim 1, wherein the annular space is configured to receive a process fluid flowing through the underwater component to bias the first and second annular portions away from one another. 10. The system of claim 1, comprising a seal assembly having the annular lip seal, wherein the seal assembly comprises one or more back-up seals, and the seal assembly is configured to be disposed between a tree cap and a plug. 11. A system, comprising: a subsea mineral extraction system, comprising: a metal lip seal, comprising: an outer diameter portion comprising an outer protrusion configured to contact a subsea component, wherein the outer protrusion has a curved surface that curves from an axial top of the outer protrusion to an axial bottom of the outer protrusion, wherein the curved surface has a radius of curvature that curves from the axial top of the outer protrusion to the axial bottom of the outer protrusion, wherein the radius of curvature is within approximately plus or minus 10 percent of a radius of a bore configured to support the metal lip seal; andan inner diameter portion coupled to the outer diameter portion by a top portion, wherein the inner diameter portion, the outer diameter portion, and the top portion form a cavity. 12. The system of claim 11, wherein the metal lip seal is formed from titanium or a nickel alloy. 13. The system of claim 11, wherein the inner diameter portion comprises at least two inner protrusions arranged vertically in an axial direction. 14. The system of claim 11, wherein the cavity is configured to be exposed to a process fluid within the subsea mineral extraction system. 15. The system of claim 11, wherein the metal lip seal has an annular configuration, and wherein the outer protrusion is the only protrusion of the outer diameter portion. 16. The system of claim 11, wherein subsea mineral extraction system comprises a seal assembly having the metal lip seal, and the seal assembly is configured to be disposed between an inner wall of a tree cap and a plug disposed within the tree cap. 17. The system of claim 11, wherein the radius of curvature is approximately equal to the radius of the bore configured to support the metal lip seal. 18. A system comprising: a lip seal, comprising: an inner diameter portion first and second inner protrusions extending toward a central axis of the lip seal to respective first and second radii, wherein an intermediate portion with a third radius is disposed between the first and second protrusions, wherein the first and second radii are less than the third radius, wherein the first and second inner protrusions are configured to contact a first component;an outer diameter portion comprising only one outer protrusion extending away from the central axis of the lip seal, wherein the outer protrusion is configured to contact a second component, wherein the outer protrusion has a curved surface extending from an axial top of the outer protrusion to an axial bottom of the outer protrusion, and wherein the curved surface extends at least half an axial length of the outer diameter portion, and the axial length extends from a first axial end surface to a second axial end surface of the outer diameter portion; anda top portion coupling the inner diameter portion and the outer diameter portion,wherein the inner diameter portion, the outer diameter portion, and the top portion form a cavity configured to be exposed to a fluid flowing between the first component and the second component, and wherein the lip seal is formed from titanium, a nickel alloy, or other metal. 19. The system of claim 18, comprising a subsea mineral extraction system configured to support the lip seal, wherein the lip seal is configured to block the flow or leakage of a production fluid. 20. The system of claim 18, wherein the lip seal is configured to be mounted in a subsea mineral extraction system to block the flow or leakage of a production fluid of the subsea mineral extraction system between the first component and the second component.
Johnston, Spencer C.; Alden, Glen R.; Storkman, William R.; Duke, James R.; Moshier, Benjamin J.; Irish, Reid M.; Doraiswamy, Devaraj; Kosinski, Michael T., Exhaust system slip joint.
Skeels Harold B. (Kingwood TX) Cunningham Christopher E. (Edinburgh TX GB6) Mouret Edmund M. (Houston TX) Underwood Donald M. (Singapore TX SGX) Krenek Michael J. (Spring TX), Metal-to-metal sealing pipe swivel joint.
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