a primary vessel, filled with a liquid metal as heat transfer fluid of a primary circuit of the reactor;

a vessel pit arranged around the primary vessel defining a space between the vessel pit and the primary vessel;

a closure slab for confining the liquid metal inside the primary vessel;

a removal system for removing at least some of nominal heat of the reactor during normal operation and of decay heat of the reactor during shutdown operation, the removal system comprising at least:

a closed circuit filled with a heat transfer liquid, the closed circuit comprising:

the closed circuit being configured such that the heat transfer liquid flows therein by natural convection and remains in a liquid state both during normal operation of the nuclear reactor and during shutdown operation of the nuclear reactor releasing decay heat;

a cold source comprising at least one modular reservoir arranged at a distance from the primary vessel and above the closure slab, the reservoir comprising a second cold collector, connected to the first cold collector, a second hot collector, connected to the first hot collector, the second hot collector being arranged above the second cold collector and connected to the second cold collector via the plurality of monotube heat exchangers, a plurality of modules arranged in at least one row of boxes, each module containing a phase change material capable of being in a solid state and liquid state, the phase change material being confined in a casing, each module being arranged so as to be cooled by one of the plurality of monotube heat exchangers, and a support structure supporting at least the second hot collector and the boxes, the phase change material present in each module being configured, during heat exchange with the liquid metal circulating in the plurality of monotube heat exchangers, to be in a solid state during normal operation of the nuclear reactor and to transition to the liquid state in an accident condition of the nuclear reactor in which decay heat is released.