Patent Number: 059189118
Section: claims

1. The combination of a nozzle assembly and an ASME pressure vessel having a bore, comprising: a nozzle stub coaxial with said bore which opens to the interior of said vessel, extends therefrom part way into said bore and terminates therein, said nozzle stub being welded to said vessel where said bore opens to the interior of said vessel;  a partial nozzle extending from the vicinity of said nozzle stub in said bore, through said bore and exiting said bore to the exterior of said vessel, said partial nozzle having at least one section within said bore coaxial with said nozzle stub which has an outer diameter larger than the outer diameter of said nozzle stub;  a mechanical coupling of said partial nozzle to said vessel operative to provide a mechanical attachment of said partial nozzle to said vessel, said mechanical coupling not including a weld between said partial nozzle and said vessel;  said bore having a smaller diameter section surrounding at least part of said nozzle stub and a larger diameter section surrounding said at least one section of said partial nozzle, said bore having a shoulder where the smaller and larger diameter sections thereof meet;  at least a part of said at least one section of said partial nozzle in said bore and at least a part of said shoulder in said bore having a same diameter; and  a mechanical non-welded seal of said partial nozzle in said bore comprising sealing material positioned in said bore compressed by action of said at least one section of said partial nozzle and said shoulder of said bore.  a full nozzle extending from the interior of said vessel, through said bore and exiting said bore to the exterior of said vessel;  a mechanical coupling of said full nozzle to said vessel operative to provide for a mechanical attachment of said full nozzle to said vessel said mechanical coupling not including a weld between said full nozzle and said vessel; and  a mechanical, non-welded seal of said full nozzle to said vessel.  a nozzle body extending from the interior of said vessel, through said bore and exiting said bore to the exterior of said vessel, and a drive sleeve sized to concentrically slidably fit on said nozzle body;  said mechanical coupling comprising exterior threads on said drive sleeve and interior threads in said bore adjacent to the exterior of said vessel positioned to engage said threads on said drive sleeve to attach said drive sleeve to said vessel, and an annular flange on said nozzle body in said bore engaged by said drive sleeve.  a sleeve opening to the interior of said vessel and extending part way into said bore, said sleeve being shrink fit to mechanically attach it to said vessel and mechanically seal it in the bore;  a nozzle extending from at least adjacent said sleeve in said bore, through said bore and exiting said bore to the exterior of said vessel;  a mechanical coupling of said nozzle to said vessel operative to provide a mechanical attachment of said nozzle to said vessel, said mechanical coupling not including a weld between said nozzle and said vessel; and  a mechanical seal of said nozzle to said vessel.  a nozzle stub which opens to the interior of said vessel and extends therefrom part way into said bore, said nozzle stub being welded to said vessel where said bore opens to the interior of said vessel;  a partial nozzle extending from the vicinity of said nozzle stub in said bore, through said bore and exiting said bore to the exterior of said vessel;  a mechanical coupling of said partial nozzle to said vessel operative to provide a mechanical attachment of said partial nozzle to said vessel, said mechanical coupling not including a weld between said partial nozzle and said vessel and comprising bolts threaded to said vessel, a flange and a coupling of said bolts to said flange and a coupling of said flange to said partial nozzle; and  a mechanical seal of said partial nozzle to said vessel.  said bore having a smaller diameter section adjacent said nozzle stub tubular section and a larger diameter section adjacent thereto surrounding said tubular section of said partial nozzle, said bore having an annular shoulder where said smaller and larger diameter sections thereof meet;  said mechanical coupling comprising an end of said tubular section in said bore of said partial nozzle compressively engaging said shoulder in said bore;  said mechanical seal between said nozzle stub and said partial nozzle comprising sealing material surrounding said tubular section of said nozzle stub compressed between said bore shoulder and an end of said tubular section of said partial nozzle.  a full nozzle extending from the interior of said vessel, through said bore and exiting said bore to the exterior of said vessel, a flange coupled to said full nozzle outside of said bore, said full nozzle and said bore having structure which engages under compressive loading of said nozzle in said bore and bolts attaching said flange to the exterior of said vessel and providing said compressive loading of said nozzle in said bore; and  a mechanical seal, in said bore, of said full nozzle to said vessel.  a nozzle body extending from the interior of said vessel, through said bore and exiting said bore to the exterior of said vessel, said nozzle body including said tapered section of said full nozzle and a tubular section positioned adjacent thereto on a side thereof away from the interior of said vessel, said nozzle body having an annular flange where said tapered section and said tubular section meet; and  a sleeve sized to concentrically slidably fit on said tubular section of said nozzle body in engagement with said annular flange;  said flange being coupled to said sleeve and providing said compressive loading to said nozzle through said sleeve and said annular flange.  a nozzle extending from and exiting said bore to the exterior of said vessel, said nozzle being attached to said vessel;  a mechanical seal in said bore between said nozzle and said vessel; and  structure forming a leak path along which any liquid in said bore which leaks past said mechanical seal in said bore can flow to the exterior of said vessel, said structure forming at least one passage having a circumferential width of substantially less than 360 degrees through which leaking liquid can be channeled.  a nozzle extending from and exiting said bore to the exterior of said vessel;  a mechanical coupling of said nozzle to said vessel operative to provide for a mechanical attachment of said nozzle to said vessel, said mechanical coupling not including a weld between said nozzle and said vessel; and  an anti-rotation device coupled to at least one part of said nozzle and to said vessel without a weld to said vessel to resist rotation of said at least one part in said bore.  a sleeve extending into said bore surrounding a substantial portion of said nozzle in said bore where the diameter thereof is substantially larger than the diameter of said nozzle;  a mechanical coupling of said sleeve to said vessel and said mechanical coupling not including a weld;  a mechanical seal of said sleeve to said vessel within said bore surrounding said nozzle.  enlarging the diameter of the bore to be substantially larger than that of the nozzle for a portion thereof adjacent the exterior of the vessel;  mechanically attaching a sleeve to the vessel which extends into the bore surrounding a substantial portion of the nozzle in the enlarged bore; and  mechanically sealing the sleeve within the bore surrounding the existing nozzle.  removing a portion of the existing nozzle adjacent the exterior of the vessel and leaving a nozzle stub welded to the vessel where the bore opens to the interior of the vessel and extending part way into the bore;  mechanically attaching a partial nozzle to the vessel extending from adjacent said nozzle stub in the bore, through the bore and exiting the bore to the exterior of the vessel; and  mechanically sealing the partial nozzle to the vessel solely within the bore.  a nozzle extending from and exiting said bore to the exterior of said vessel, said nozzle being welded to said vessel; and  means for mechanically sealing said nozzle including sealing material compressed within said bore such that said sealing material may be further compressed to tighten said mechanical seal without breaking said weld.  a nozzle stub which opens to the interior of said vessel and extends therefrom part way into said bore, said nozzle stub being welded to said vessel where said bore opens to the interior of said vessel, and a partial nozzle extending from adjacent said nozzle stub in said bore, through said bore and exiting said bore to the exterior of said vessel, said partial nozzle being attached to said vessel;  a mechanical seal in said bore between said partial nozzle and said vessel; and  structure forming a leak path along which any liquid in said bore which leaks past said mechanical seal in said bore can flow to the exterior of said vessel.  a nozzle which opens to the interior of said vessel and extends therefrom in said bore, through said bore and exits said bore to the exterior of said vessel;  a mechanical coupling of said nozzle to said vessel operative to provide for a mechanical attachment of said nozzle to said vessel, said mechanical coupling not including a weld between said nozzle and said vessel, said mechanical coupling comprising bolts threaded to said vessel and a flange, and including a coupling of said bolts to said flange and a coupling of said flange to said nozzle; and  a mechanical, non-welded seal of said nozzle to said vessel.  a nozzle extending from and exiting said bore to the exterior of said vessel, said nozzle being attached to said vessel;  a mechanical seal in said bore between said nozzle and said vessel; and  structure forming a leak path along which any liquid in said bore which leaks past said mechanical seal in said bore can flow to the exterior of said vessel, said structure forming said leak path which comes into contact with any liquid flowing in said leak path being resistant to corrosion by the corrosive liquid which said vessel is adapted to contain. 2. The combination of claim 1 wherein said mechanical coupling comprises interior threads in said bore and exterior threads on said partial nozzle positioned to engage said interior threads in said bore, said mechanical attachment including structure in said bore and structure on said partial nozzle configured to engage in said bore in a tightened condition of said partial nozzle in said bore to provide said mechanical attachment of said partial nozzle to said vessel. 3. The combination of claim 1 wherein said mechanical coupling comprises bolts threaded to said vessel and a flange, said mechanical coupling including a coupling of said bolts to said flange and a coupling of said flange to said partial nozzle. 4. The combination of claim 3 comprising another mechanical seal of said partial nozzle to said vessel which includes sealing material compressed between said flange and the exterior of said vessel. 5. The combination of claim 1 wherein said partial nozzle has another section within said bore of a smaller diameter than said at least one section positioned adjacent said nozzle stub, said partial nozzle having a flange in said bore where said another section and said at least one section of said partial nozzle meet positioned in said bore in the vicinity of said shoulder said sealing material being positioned in said bore compressed between said flange and said shoulder to provide said mechanical seal thereat. 6. The combination of claim 5 comprising another mechanical seal in said bore between said nozzle stub and said another section of said partial nozzle. 7. The nozzle assembly of claim 1 wherein said partial nozzle comprises a nozzle body which includes said at least one section, and a drive sleeve, said bore having a threaded section adjacent the exterior of said vessel, said drive sleeve being threaded to said threaded section of said bore, said nozzle body passing through said sleeve to the exterior of said vessel, at least a portion of said sleeve having said same diameter, whereby said nozzle body is mechanically attached to said vessel and said sealing material is compressed by said sleeve threaded and tightened in said bore. 8. The combination of a nozzle assembly and a pressure vessel of a nuclear power facility having a bore, comprising: 9. The combination of claim 8 wherein said full nozzle has a tapered section within said bore which increases in diameter away from the interior of said vessel, said bore correspondingly having a tapered section which correspondingly increases in diameter away from the interior of said vessel, said tapered section of said full nozzle engaging said tapered section of said bore directly or with sealing material therebetween sufficient to provide said mechanical seal thereat. 10. The combination of claim 8 wherein said full nozzle, at least within said bore, is one-piece excluding any sealing material. 11. The combination of claim 8 wherein said full nozzle comprises: 12. The combination of claim 11 wherein said mechanical seal includes sealing material in said bore compressed between said annular flange and an end of said sleeve adjacent thereto. 13. The combination of claim 8 wherein said full nozzle comprises a nozzle body extending from the interior of said vessel through said bore and exiting said bore and a drive sleeve surrounding a portion of said nozzle body in said bore adjacent the exterior of said vessel, said bore having a larger diameter section adjacent the exterior of said vessel surrounding said drive sleeve and a smaller diameter section adjacent the interior of said vessel surrounding said nozzle body and defining a shoulder therebetween, said mechanical coupling comprising exterior threads on said drive sleeve in said bore and interior threads in said larger diameter section of said bore positioned to engage said threads on said drive sleeve to attach said drive sleeve to said vessel, and exterior threads on said nozzle body extending from inside said drive sleeve to outside said drive sleeve and interior threads on said drive sleeve positioned to engage said exterior threads on said nozzle body to attach said nozzle body to said drive sleeve, and a nut threaded to said nozzle body outside said drive sleeve tightened against said drive sleeve, said mechanical seal comprising sealing material positioned and compressed between an end of said drive sleeve in said bore and said shoulder in said bore. 14. The combination of claim 8 comprising a sleeve positioned in said bore extending from the interior of said vessel and terminating in said bore, said sleeve having a tubular OD and a section with a tapered ID which increases in diameter away from the interior of said vessel, said full nozzle having a tapered section within said sleeve corresponding to the taper of said sleeve tapered section, said mechanical seal being formed by sealing contact of said tapered sections of said sleeve and said full nozzle. 15. The combination of claim 13 comprising another mechanical seal in said bore, said full nozzle comprising a sleeve in said bore adjacent an end of said nozzle body in said bore interference fitted with said bore to form said another mechanical seal thereat. 16. The combination of a nozzle assembly and an ASME pressure vessel having a bore, comprising: 17. The combination of claim 16 wherein said nozzle has a smaller diameter tubular section within said bore positioned within said first sleeve and a larger diameter tubular section within said bore adjacent said smaller diameter section which meet and define an annular flange thereat, said bore correspondingly having a smaller diameter section surrounding said first sleeve and a larger diameter section adjacent said smaller diameter section which meet and define an annular shoulder thereat, said mechanical seal comprising sealing material positioned in said bore compressed under action at least of said annular flange and said annular shoulder. 18. The combination of a nozzle assembly and an ASME pressure vessel having a bore, comprising: 19. The combination of claim 18 wherein said coupling of said flange to said nozzle comprises a sleeve threaded to said partial nozzle which is coupled to said flange. 20. The combination of claim 18 wherein said seal of said nozzle to said vessel is in said bore, and comprising another seal of said nozzle to said vessel including sealing material compressed between said flange and the exterior of said vessel. 21. The combination of claim 20 wherein said partial nozzle has a smaller diameter tubular section within said bore positioned adjacent said nozzle stub and a larger diameter tubular section within said bore adjacent said smaller diameter section which meet and define an annular flange thereat, said bore correspondingly having a smaller diameter section adjacent said nozzle stub and a larger diameter section adjacent said smaller diameter section which meet and define an annular shoulder thereat, said mechanical seal comprising sealing material positioned in said bore compressed under action at of said annular flange and said annular shoulder. 22. The combination of claim 21 comprising another mechanical seal in said bore between said nozzle stub and said partial nozzle. 23. The combination of claim 18 wherein said partial nozzle has a tubular section within said bore adjacent said nozzle stub which has an inner diameter larger than the outer diameter of said nozzle stub tubular section, said tubular section of said partial nozzle overlapping said tubular section of said nozzle stub; 24. The combination of claim 19 wherein said sleeve is threaded to said partial nozzle exteriorly of said vessel extending beyond a side of said flange facing away from said vessel, said sleeve in a tightened condition thereof engaging said flange and being coupled to said flange by a weld. 25. The combination of a nozzle assembly and a pressure vessel of a nuclear power facility having a bore, comprising: 26. The combination of claim 25 wherein said full nozzle has a tapered section within said bore which increases in diameter away from the interior of said vessel, said bore correspondingly having a tapered section which correspondingly increases in diameter away from the interior of said vessel, said tapered section of said full nozzle sealing with said tapered section of said bore directly or with sealing material compressed therebetween to provide said mechanical seal thereat. 27. The combination of claim 26 wherein said full nozzle, at least within said bore, is one-piece excluding any sealing material. 28. The combination of claim 26 wherein said full nozzle comprises: 29. The combination of claim 25 wherein said flange is a split flange. 30. The combination of an initial installation, replacement or repair nozzle assembly and an ASME pressure vessel having a bore, comprising: 31. The combination of claim 30 comprising a first mechanical seal and a second mechanical seal in said bore between said nozzle and said vessel, said first mechanical seal being closer to said vessel interior than said second mechanical seal, said leak path being provided from said second mechanical seal extending to the exterior of said vessel. 32. The combination of claim 31 comprising another leak path form said first mechanical seal extending to the exterior of said vessel. 33. The combination of claim 30 wherein said nozzle is a full nozzle mechanically attached to said vessel extending from the interior to the exterior of said vessel. 34. The combination of clam 30 wherein said nozzle is a full nozzle welded to said vessel extending from the interior to the exterior of said vessel. 35. The combination of claim 30 comprising means for mechanically attaching said nozzle to said vessel. 36. The combination of a nozzle assembly and a pressure vessel of a nuclear power facility having a bore, comprising: 37. The combination of claim 36 wherein said anti-rotation device comprises key stock engaging with said at least one part and said vessel in said bore. 38. The combination of claim 36 wherein said anti-rotation device comprises a mechanical engagement of said at least one part with another part welded to said nozzle. 39. The combination of a nozzle and an ASME pressure vessel having a bore, said nozzle being welded to said vessel and passing through said bore, said bore having a diameter slightly larger than a diameter of said nozzle adjacent the interior of said vessel and a diameter substantially larger than a diameter of said nozzle adjacent the exterior of said vessel, said nozzle being welded to said vessel at the opening of said bore to the vessel interior; said combination comprising: 40. The combination of claim 39 wherein said mechanical seal of said sleeve to said vessel comprises an annular shoulder where the larger and smaller diameter bore portions meet and compressed sealing material between an end of said sleeve in said bore and said shoulder. 41. The combination of claim 39 wherein said mechanical seal of said sleeve to said vessel comprises a taper in said bore transitioning between a larger diameter closer to the vessel exterior and a smaller diameter closer to the vessel interior, a corresponding taper in said sleeve, and said mechanical attachment of said sleeve to said vessel forcing the tapered portions of said bore and sleeve into sealing engagement. 42. The combination of claim 39 wherein said mechanical attachment of said sleeve to said vessel comprises exterior threads on sleeve and interior threads in said bore which engage. 43. The combination of claim 39 wherein said sleeve extends exteriorly of said vessel surrounding said nozzle, a flange coupled to said sleeve exteriorly of said vessel, and bolts coupled to said flange attached to the vessel exterior. 44. The combination of claim 43 comprising another mechanical seal between said flange and the vessel. 45. The combination of claim 40 wherein said sleeve extends exteriorly of said vessel surrounding said nozzle, said nozzle extending from said sleeve, and comprising a weld between said nozzle and said sleeve outside of said bore. 46. The combination of claim 45 comprising a tubular element, said weld attaching said nozzle to said tubular element, and a mechanical coupling rotatably attaching said sleeve to said tubular element, whereby said sleeve may be rotated in said bore while welded to said nozzle. 47. The combination of claim 39 wherein said sleeve extends exteriorly of said vessel surrounding said nozzle, said nozzle extending from said sleeve, and a clamp frictionally engaging said nozzle and attached to said sleeve. 48. The combination of claim 47 comprising bolts attached to the vessel exterior and a flange, said flange being coupled to said bolts and to said clamp. 49. A method of mechanically attaching and mechanically sealing a nozzle welded to a pressure vessel of a nuclear power facility which extends into a bore of the vessel and exteriorly of the vessel, comprising: 50. The method of claim 49 wherein the step of mechanically sealing the sleeve comprises forming an annular shoulder where the enlarged and existing bore portions meet, positioning sealing material between the end of the sleeve in the bore and the shoulder, and compressing the sealing material therebetween. 51. The method of claim 50 wherein the step of mechanically sealing the sleeve comprises forming a taper in the bore transitioning between a larger diameter closer to the vessel exterior and a smaller diameter closer to the vessel interior, forming a corresponding taper in the sleeve, and forcing the tapered portions of the bore and sleeve into sealing engagement compressing any sealing material therebetween. 52. The method of claim 50 wherein the step of mechanically attaching the sleeve to the vessel comprises threading the sleeve in the bore. 53. The method of claim 50 wherein the sleeve extends exteriorly of the vessel surrounding the nozzle, and wherein the step of mechanically attaching the sleeve to the vessel comprises coupling a flange to the vessel with bolts threaded to the vessel and coupling the flange to the sleeve exteriorly of the vessel. 54. The method of claim 53 comprising the step of mechanically sealing the flange to the vessel. 55. The method of claim 53 wherein the sleeve extends exteriorly of the vessel surrounding the nozzle, and comprising the step of welding the existing nozzle to the sleeve outside of the bore. 56. The method of claim 55 wherein the step of mechanically attaching the sleeve to the vessel comprises threading the sleeve in the bore, and wherein the step of welding the sleeve to the existing nozzle comprises welding the sleeve to an element which is rotatably coupled to the sleeve, whereby the sleeve may be rotated in the bore while welded to the existing nozzle. 57. A method of partially replacing an existing nozzle in a pressure vessel of a nuclear power facility which is welded to the vessel where the bore opens to the interior of the vessel, comprising: 58. The combination of an initial installation, replacement or repair nozzle assembly and an ASME pressure vessel having a bore, comprising: 59. The combination of claim 58 wherein said means for sealing provides two mechanical seals of said nozzle to said vessel and comprising means for independently compressively said seals. 60. The nozzle assembly of claim 58 wherein said means for sealing live-loads said seal. 61. The combination of an initial installation, replacement or repair nozzle assembly and an ASME pressure vessel having a bore, comprising: 62. The combination of a nozzle assembly and an ASME pressure vessel having a bore, comprising: 63. The combination of claim 62 wherein said coupling of said flange to said nozzle is operative to compressively load said nozzle to said vessel. 64. The combination of claim 8 wherein said coupling of said flange to said full nozzle is operative to compressively load said full nozzle to said vessel. 65. The combination of an initial installation, replacement or repair nozzle assembly and an ASME pressure vessel having a bore and adapted to contain a corrosive liquid therein without corroding the interior of said vessel, comprising: