Patent Number: 
Section: claims

1. A liquid-metal-cooled nuclear reactor, comprising:a reactor vessel;a core having an active part;a hot header above the core and in which a primary fluid circulates for cooling the core, the primary fluid being a liquid metal;fuel assemblies;a separation structure supporting the fuel assemblies;a cold header surrounding the hot header and in which the primary fluid circulates for cooling the core, the colder header separated from the hot header by the separation structure;at least one heat exchanger configured to remove heat from the primary fluid via a secondary fluid;wherein the separation structure has a substantially amphora-like shape and includes:a lower element placed around the core at a certain radial distance from the active part of the core such that the liquid metal interposed between the lower element and the active part of the core provides a neutron shielding function that reduces neutron damage of the separation structure to predetermined acceptable limits; andan upper element located above the core, the upper element having a reduced radial extent with respect to the lower element, and being joined to the lower element by a connecting element;wherein the connecting element is equipped with penetrations from which vertical ducts extend to connect to one or more heat exchangers positioned between the upper element of the separation structure and the reactor vessel, for feeding the at least one heat exchanger with hot primary fluid leaving the core;wherein the connecting element and the upper element of the separation structure constitute a radial constraint of an inactive upper part of the fuel assemblies of the core. 2. The reactor according to claim 1, wherein the connecting element between the lower element and the upper element of the separation structure includes a plate. 3. The reactor according to claim 1 wherein:the connecting element includes radially extending lobes, the penetrations being positioned on the radially extending lobes; andthe vertical ducts for feeding the at least one heat exchanger engage the penetrations positioned on radially extending lobes. 4. The reactor according to claim 3, further comprising one or more free volumes for installation of one or more auxiliary components of the reactor, each of the free volumes being positioned between portions of the connecting element without the radially extending lobes and the reactor vessel, and also between portions the amorpha-like shape of the separation structure and the reactor vessel. 5. The reactor according to claim 1, wherein the primary fluid contained within the upper element of the separation structure is substantially stagnant. 6. The reactor according to claim 1, wherein the secondary fluid includes water brought to steam in the at least one heat exchanger that is a steam generator. 7. The reactor according to claim 6, wherein the liquid metal includes a heavy liquid metal. 8. The reactor according to claim 7, wherein the heavy liquid metal includes lead. 9. The reactor according to claim 1, wherein the lower element acts as an element of hydraulic containment of the core. 10. The reactor according to claim 1, wherein the at least one heat exchanger, includes a steam generator. 11. The reactor according to claim 1 wherein the upper element having the reduced radial extent with respect to the lower element is generally cylindrical. 12. The reactor according to claim 1 wherein the connecting element extends outwardly between the upper element to the lower element. 13. The reactor according the claim 12, wherein the connecting element extends generally perpendicular from the upper element to the lower element. 14. The reactor according to claim 12 wherein the connecting element is generally horizontal and the vertical ducts extend vertically directly from the connecting element.