Patent Number: 039322173
Section: claims

1. A method of passive protection of a nuclear reactor and especially a fast reactor, the steps of replacing at least part of the conventional fuel elements within the core of said reactor by a number of vertical safety fuel elements, forming each safety fuel element with an axial flow duct having a cross-section of large diameter having a ratio with respect to the diameter of the fuel element on the order of 10/15, receiving in said flow duct the portion of fuel which is capable of melting within the central portion of said element under the action of a neutron-flux excursion and flowing the melted fuel portion under gravity from the mid-height of said element to the base thereof thus reducing the reactivity without thereby impairing the fuel can. 2. A device for the passive protection of a nuclear reactor having vertical fuel elements including safety fuel elements wherein each safety element is constituted by a stack of fissile fuel pellets enclosed in a can, each pellet having a central orifice of large diameter having a ratio with respect to the diameter of the fuel element on the order of 10/15 to ensure that the portion of molten fuel melting within the central portion of the element can flow under gravity to the bottom portion of said fuel element. 3. A device according to claim 2, wherein each safety element is provided at the lower end thereof with a member corresponding to the lower fertile blanket of the reactor core, said member being formed of refractory material and provided over part of its height and at the top portion thereof with a central duct having substantially the same diameter as the duct formed in the fissile portion of said fuel element. 4. A device according to claim 3, wherein the member corresponding to the lower blanket is provided at the top portion thereof with a central duct having a diameter which is substantially equal to that of the fissile portion of the fuel element and wherein said member terminates at the lower end thereof in a solid pellet of refractory material. 5. A device for the passive protection of a nuclear reactor having vertical fuel elements including safety fuel elements wherein each safety element is constituted by a stack of fissile fuel pellets enclosed in a can, each pellet having a central orifice of large diameter having a ratio with respect to the diameter of the fuel element on the order of 10/15 to ensure that the portion of molten fuel melting within the central portion of the element can flow under gravity to the bottom portion of said fuel element, a member for each safety element at the lower end thereof corresponding to the lower fertile blanket of the reactor core, said member being formed of refractory material and provided over part of its height and at the top portion thereof with a central duct having substantially the same diameter as the duct formed in the fissile portion of said fuel element; said member having at the bottom portion thereof an axial duct of smaller diameter and beneath said member a chamber for the fission gases which is limited by the bottom face of said member and by the can and at the lower end thereof by a crucible of refractory material on the bottom end-wall of said can. 6. A device according to claim 5, wherein the refractory material is an oxide of fertile substance selected from the group comprising depleted uranium, natural uranium and thorium. 7. A device according to claim 5, wherein the refractory material which forms the bottom crucible is selected from the group comprising depleted uranium, natural uranium, thorium and boron carbide. 8. A device according to claim 7, wherein the safety elements are grouped together in a predetermined number of fuel assemblies of the reactor core. 9. A device according to claim 7, wherein the safety elements are uniformly distributed within all the fuel assemblies of the reactor core. 10. A device according to claim 7, wherein all the fuel elements of the reactor core are safety elements.