Patent Number: 050874098
Section: claims

1. A multiple shell pressure vessel comprising a top head section comprising  a top head flange having a lower bearing surface,  a shell course section comprising  a first inner shell having a top rim,  a first inner shell flange attached to said top rim of said first inner shell and having a lower bearing surface and an upper bearing surface,  means for sealably connecting said upper bearing surface of said first inner flange to said lower bearing surface of said top head flange,  a second outer shell adapted to telescopically enclose said first inner shell and having a top rim,  a second outer shell flange attached to said top rim of said second outer shell and having a lower bearing surface and an upper bearing surface,  means for sealably connecting said upper bearing surface of said second outer shell flange to said lower bearing surface of said first flange,  a top tendon skirt having a bottom flange,  means for connecting said bottom flange to said top head section proximate said top head flange,  a bottom tendon skirt having a top flange,  means for connecting said top flange to said second outer shell proximate said lower bearing surface of said second flange,  means connected to said top and bottom tendon skirts for compressing said flanges between said top and bottom tendon skirts, and  a radial spacer bearing ring disposed about the outer surface of said shell module first inner shell and adapted to engage the inner surface of said shell module second outer shell, said radial spacer bearing ring located a predetermined distance from said first inner shell flange to equalize torsional forces on said first inner shell flange.  a top head module comprising  a top head flange having a lower bearing surface,  a shell course module comprising  a first inner shell having a top rim,  a first inner shell flange attached to said top rim of said first inner shell and having a lower bearing surface and an upper bearing surface,  means for sealably connecting said upper bearing surface of said first inner flange to said lower bearing surface of said top head flange,  an intermediate shell adapted to telescopically enclose said first inner shell and be spaced apart therefrom comprising  a top rim,  an intermediate shell flange attached to said top rim and having a lower bearing surface and an upper bearing surface,  means for sealably connecting said upper bearing surface of said intermediate flange to said lower bearing surface of said first inner shell flange,  an outer shell adapted to telescopically enclose said intermediate shell and be spaced apart therefrom comprising  a top rim,  an outer shell flange attached to said outer shell top rim and having a lower bearing surface and an upper bearing surface,  means for sealably connecting said upper bearing surface of said outer shell flange to said lower bearing surface of said intermediate shell flange,  a top tendon skirt having a bottom flange,  means for connecting said bottom flange to said top head module proximate said upper bearing surface of said top head flange,  a bottom tendon skirt having a top flange,  means for connecting said top flange to said outer shell proximate said lower bearing surface of said outer shell flange, and  means connected to said top and bottom tendon skirts for compressing said flanges between said top and bottom tendon skirts.  an insulating material disposed in the space between said first inner shell and said intermediate shell, and  a low melting point thermal conducting material disposed in the space between said outer shell and said intermediate shell.  a first radial spacer bearing ring disposed about the outer surface of said shell module first inner shell and adapted to engage the inner surface of said shell module intermediate shell, said first radial spacer bearing ring located a predetermined distance from said first inner shell flange to equalize torsional forces on said first inner flange, and  a second radial spacer bearing ring disposed about the outer surface of said shell module intermediate shell and adapted to engage the inner surface of said shell module outer shell, said radial spacer bearing ring located a predetermined distance from said intermediate shell flange to equalize torsional forces on said intermediate flange.  means for cooling the outer shell of said pressure vessel.  means for controlling the pressure of said low melting point thermal conducting material disposed in the space between said outer shell and said intermediate shell.  a top head section comprising  a top head bottom rim,  a top head flange attached to said bottom rim of said top head section, said top head flange having an upper bearing surface and a lower bearing surface,  a nozzle course section comprising  a nozzle course top rim,  a nozzle course top flange attached to said nozzle course top rim and having a top bearing surface and a lower bearing surface,  means for sealably connecting said upper bearing surface of said nozzle course top flange to said lower bearing surface of said top head flange,  a nozzle course bottom rim,  a nozzle course bottom flange attached to said nozzle course bottom rim and having an upper bearing surface and a lower bearing surface,  a shell course section comprising  a first inner shell having a top rim,  a first flange attached to said top rim of said first inner shell and having a lower bearing surface and an upper bearing surface,  means for sealably connecting said upper bearing surface of said first flange to said lower bearing surface of said nozzle course bottom flange,  a second outer shell adapted to telescopically enclose said first inner shell and having a top rim,  a second flange attached to said top rim of said second outer shell and having a lower bearing surface and an upper bearing surface,  means for sealably connecting said upper bearing surface of said second flange to said lower bearing surface of said first flange,  a top tendon skirt having a bottom flange,  means for connecting said bottom flange to said top head section proximate said upper bearing surface of said top head flange,  a bottom tendon skirt having a top flange,  means for connecting said top flange to said second outer shell proximate said lower bearing surface of said second flange, and  means connected to said top and bottom tendon skirts for compressing said flanges between said top and bottom tendon skirts.  a first shell course bearing plate disposed between the lower bearing surface of said first inner shell flange and the upper bearing surface of said second outer shell flange.  a top tendon skirt top flange  a top tendon skirt frusto-conical section disposed between said top tendon skirt bottom flange and said top tendon skirt top flange, and  said bottom tendon skirt comprises  a bottom tendon skirt bottom flange,  a bottom tendon skirt frusto-conical section disposed between said bottom tendon skirt top flange and said bottom tendon skirt bottom flange.  at least three tension members connected between said top tendon skirt top flange and said bottom tendon skirt bottom flange and equiangularly spaced around said flanges outside said pressure vessel,  said first and second shell course flanges stepped relative to each other, and  a radial spacer bearing ring disposed between said first inner and said second outer shells of said shell course and located proximate a force line which produces zero flange torsion.  the point of connection of said tension members to said top tendon skirt top flange and said bottom tendon skirt bottom flange are approximately coincident with the frusto-conical surface defined by said top tendon skirt frusto-conical section and said bottom tendon skirt frusto-conical section. 2. A multiple shell pressure vessel comprising 3. A multiple shell pressure vessel as claimed in claim 2 further comprising 4. The multiple shell pressure vessel as claimed in claim 2 further comprising 5. The multiple shell pressure vessel as claimed in claim 2 further comprising 6. The multiple shell pressure vessel as claimed on claim 2 further comprising 7. A multiple shell pressure vessel comprising 8. The multiple shell pressure vessel as claimed in claim 7 further comprising 9. The multiple shell pressure vessel as claimed in claim 7 wherein said top tendon skirt comprises 10. The multiple shell pressure vessel as claimed in claim 9 comprising 11. The multiple shell pressure vessel as claimed in claim 10 wherein