Patent Number: 046684670
Section: claims

1. In a pressurized water nuclear power reactor, a safety cooling system comprising: a reservoir for storing a cooling liquid, located outside the containment which encloses the circuit of the reactor; a pump, arranged at least to aspirate the liquid from the reservoir and to discharge said liquid into said circuit; a first liquid conduit which connects the reservoir to said pump; a second liquid conduit leaving said pump and terminating in the circuit of the reactor, an ejector to recover and to convey said liquid and the containment water, arranged to receover said liquid and the water from the reactor in the event of a break in the circuit of the reactor, in the lower part of the containment after said liquid has at least passed into the reactor's circuit, and conduct said liquid and water by non gravitational flow to said pump; a first pipe-line for transferring liquid and containment water, connecting said ejector to said first conduit and being located upstream of the pump; valve means in said first pipe-line for permitting or stopping flow therethrough; a second pipe-line for transferring the liquid and containment water, connecting said second conduit downstream of the said pump to said ejector, and valve means in said second pipe-line for permitting or stopping flow therethrough. 2. In the pressurized water nuclear power reactor as defined in claim 1, the improvement wherein in the upper part of the containment, there is provided at least one spray manifold arranged to project cooling liquid into the interior of the said containment and over at least a large part of the volume occupied by said containment, said manifold being supplied with cooling liquid by said pump, there also being provided a pipe-line which connects the second conduit, downstream of the pump, to the spray manifold. 3. In the pressurized water nuclear power reactor as defined in claim 1, the improvement wherein a hermetically sealed tank is incorporated in the first pipe-line connecting the pump to the first conduit, the axis of said tank being located in an essentially vertical plane the upper part of said tank being provided with an opening to which is connected the pipe-line coming from the ejector, and the lower part of the tank is provided with an opening to which is connected the pipe-line connected to the first conduit. 4. In the pressurized water nuclear power reactor as defined in claim 3, the improvement wherein said tank is provided with a vent pipe which leads into the containment and which is arranged to allow gas or contaminated vapors, which accummulate in the top part of the tank, when the said pipe-lines are filled with cooling liquid and water, to escape into the interior of said containment. 5. In the pressurized water nuclear power reactor as defined in claim 1, the improvement comprising means to contain a cooling fluid and to permit an exchange of heat between, on the one hand, the cooling liquid and the reactor water to be cooled after said liquid has at least passed into the reactor circuit, and, on the other hand, the cooling fluid. 6. In the pressurized water nuclear power reactor as defined in claim 1, the improvement comprising a non-return valve associated with the first conduit connecting the reservoir to the pump and arranged to allow the cooling liquid and water to pass to the pump and to prevent passage thereof in the opposite direction. 7. In the pressurized water nuclear power reactor as defined in claim 1, the improvement wherein a third conduit is provided which connects the second conduit, downstream of the pump, to the reservoir, and a valve is provided in said third conduit, said valve being normally closed while the safety cooling system is in use, said valve being arranged to enable the functioning of the pump to be checked or to fill the reservoir when the latter is empty. 8. In the pressurized water nuclear power reactor as defined in claim 1, the improvement wherein the cooling liquid and water coming from the reactor circulate in the safety cooling system in a closed circuit. 9. In the pressurized water nuclear power reactor as defined in claim 1, the improvement wherein said cooling liquid is water.