Patent Number: 046817263
Section: claims

1. A fast breeder reactor comprising: a nuclear reactor container filled with a liquid metal;  a reactor core disposed within said nuclear reactor container;  a first supporting structural member mounted to a first position of said nuclear reactor container so as to support said reactor core;  a cylindrical structural member surrounding the periphery of said reactor core so as to define an annular gap between said cylindrical structural member and said reactor core for allowing said liquid metal to fully exist therein, said cylindrical structural member being independent of said reactor core and said first structural member; and  a second supporting structural member mounted to a second position of said nuclear reactor container so as to support said cylindrical structural member, said second position of said nuclear reactor container being substantially apart from said first position.  a cylindrical structural member vertically extending and surrounding the periphery of said reactor core so as to define an annular gap between said cylindrical structural member and said outer shroud of said reactor core for allowing said liquid metal to fully exist therein, said cylindrical structural member being independent of said first supporting structural member and mounted to said nuclear container by a second supporting structural member at a position different from the position at which said first supporting structural member is mounted; and  a partition wall separating the inside of said nuclear reactor container into a low-temperature plenum and a high-temperature plenum, said partition wall being disposed above said cylindrical structural member and between said outer shroud of said reactor core and said nuclear reactor container.  a nuclear reactor container filled with a liquid metal, and having a bottom head;  a reactor core disposed within said nuclear reactor container, and having a core inner shroud and a core outer shroud;  a core supporting structural member mounted to a first position of said bottom heasd of said nuclear reactor container so as to support said reactor core;  a vibration damping shroud surrounding said core outer shroud so as to define an annular gap between said core outer shroud and said vibration damping shroud, said annular gap being fully filled with the metal liquid; and  a tubular ring-shaped horizontal member the inner side of which is mounted to said vibration damping shroud and the outer side to a second position of said nuclear reactor container so as to horizontally support said vibration damping shroud, said second position of said container being above said first position of said bottom head.  a support standing on a concrete floor surface of a building;  a roof slab integrated with said support at the upper portion;  a nuclear reactor container the upper portion of which is secured to said roof slab so as to be suspended therefrom in a pit formed in said floor surface, said nuclear container being filled with a metal fluid and having a bottom head which includes first and second knuckle portions larger in thickness than other portions of said nuclear container, said first knuckle portion being positioned above said second knuckle portion;  a core upper mechanism mounted on a plug installed in the central portion of said roof slab to be positioned over said reactor core;  intermediate heat exchangers mounted on said roof slab so as to surround said core upper mechanism;  circulation pumps mounted on said roof slab;  a reactor core disposed within said nuclear reactor container and having a core inner shroud and a core outer shroud which are disposed concentrically with each other;  a core supporting structural member mounted to said second knuckle portion of said bottom head;  a cylindrical vibration-damping shroud disposed outside said core shroud concentrically therewith so as to define an annular gap between said vibration-damping shroud and said core outer shroud;  a tabular and ring-shaped horizontal member mounted to said first knuckle portion at the outside thereof the inner side of said tabular and ring-shaped horizontal member being secured to said vibration damping shroud so as to horizontally support said vibration damping shroud; and  a partition wall, having an inner periphery attached to said core outer shroud and an outer periphery attached to said nuclear reactor container, for separating the inside of said nuclear reactor container into an upper portion constituting a high-temperature plenum and a lower portion constituting a low-temperature plenum. 2. A fast breeder reactor according to claim 1, wherein said nuclear reactor container includes a first portion having a cylindrical shape, a second portion connected to the lower side of said first portion and having a partially conical shape, and a third portion connected to the lower side of said second portion and having a partially spherical shape. 3. A fast breeder reactor according to claim 2, further comprising a guard vessel member surrounding and spaced from said first, second and third portions of said nuclear reactor container so as to delimit a gap therebetween, and means disposed in said gap in the region of said first portion of said nuclear reactor container for enabling coupling of said nuclear reactor container and said guard vessel member to supress swinging movement of said nuclear reactor container. 4. A fast breeder reactor according to claim 3, wherein said cylindrical structural member is tabular and ring-shaped and mounted to said nuclear reactor container around the position where said means for enabling coupling of said nuclear reactor container and said guard vessel member are provided. 5. A fast breeder reactor according to claim 2, wherein said nuclear reactor container has a structure in which the thickness of a first region of said nuclear reactor container between said first and second portions and the thickness of a second region of said nuclear reactor container between said second and third portions are made larger than the thickness of the portions of said nuclear reactor container which are adjacent said first and second regions, said first supporting structural member for supporting said reactor core is mounted to said second region of said nuclear reactor container, and said second supporting structural member is mounted to said first region of said reactor container. 6. A fast breeder reactor according to claim 1, wherein the width of said annular gap is selected to be not greater than 1/10 of the radius of said reactor core. 7. A fast breeder reactor according to claim 1, wherein said second supporting structural member is tabular and ring-shaped and horizontally supports said cylindrical structural member. 8. In a tank-type fast breeder reactor having a nuclear container filled with a liquid metal, a reactor core disposed within said nuclear reactor container and having an outer shroud, a roof slab mounted on the upper portion of said nuclear reactor container, a core upper mechanism which is mounted on said roof slab and inserted into said nuclear reactor container, a heat exchanger, a circulation pump, and a first supporting structural member for supporting said reactor core, said first supporting structural member being mounted on the bottom portion of said nuclear reactor container, the improvement comprising: 9. A fast breeder reactor according to claim 8, wherein said nuclear reactor container includes a first portion having a cylindrical shape, a second portion connected to the lower side of said first portion and having a partially conical shape, and a third portion connected to the lower side of said second portion and having a partially spherical shape. 10. A fast breeder reactor according to claim 9, further comprising a guard vessel surrounding and spaced from said first, second and third portions of said nuclear reactor container so as to delimit a gap therebetween, and means disposed in said gap in the region of said first portion of said nuclear reactor container for enabling coupling of said nuclear reactor container and said guard vessel member to suppress swinging movement of said nuclear reactor container. 11. A fast breeder reactor according to claim 10, wherein said partition wall is connected to said first portion of said nuclear reactor container, and said coupling means are disposed in said gap in the region of the connection of said partition wall to said first portion of said nuclear reactor container. 12. A fast breeder reactor according to claim 9, wherein said nuclear reactor container has a structure in which the thickness of a first region of said nuclear reactor container between said first and second portions and the thickness of a second region of said nuclear reactor container between said second and third portions are made larger than the thickness of the portions of said nuclear reactor container which are adjacent to said first and second regions, said first supporting structural member for supporting said reactor core is mounted to said second region of said nuclear reactor container, and said second supporting structural member is tabular and ring-shaped and horizontally mounted to said first region of said nuclear reactor container. 13. A fast breeder reactor according to claim 8, wherein said partition wall has a toroidal shape. 14. A fast breeder reactor according to claim 8, wherein the width of said annular gap is no greater than 1/10 of the radius of said reactor core. 15. A fast breeder reactor comprising: 16. A fast breeder reactor according to claim 15, wherein said nuclear reactor container includes a cylindrically shaped portion, a partially conically shaped portion continued from the lower side of said cylindrical shaped portion, and a partially spherically shaped portion continued from the lower side of said partially conically shaped portion, said tabular and ring-shaped horizontal member being mounted to said cylindrically shaped portion, and said core supporting structural member being mounted on said first position between said partially conically shaped portion and said partially spherically shaped portion. 17. A fast breeder reactor according to claim 16, wherein said nuclear reactor container is thicker at said first and second positions than at the outer portions. 18. A fast breeder reactor according to claim 17, further including a guard vessel member surrounding and spaced from said nuclear reactor container to form a gap therebetween, and a plurality of shear keys are disposed in said gap and arranged circumferentially at said second position of said nuclear container. 19. A fast breeder reactor comprising: 20. A fast breeder reactor according to claim 19, further comprising a guard vessel mounted on a lower portion of said pit, surrounding and spaced from said nuclear reactor container so as to delimit a gap therebetween, and a plurality of shear keys each disposed between and mounted to both said nuclear reactor container and said guard vessel at positions where said tabular and ring-shaped horizontal member is secured to said nuclear reactor container.