Patent Number: 051805430
Section: claims

1. A passive injection system for a nuclear power plant including a containment, a reactor vessel having a core, a hot leg in communication with the core, a cold leg, and a borated water supply for injecting into the reactor core during a loss of coolant accident in which the containment is flooded, comprising: a first flow path extending from the hot leg at a point below the flood up level of water in the containment, and providing a passageway from the hot leg to the containment; and  a second flow path extending from the reactor vessel and providing a passageway from the containment to the reactor core;  the first and second flow paths providing means for inducing a natural circulatory flow of water from within the containment through the reactor core based on differences in water density produced by the reactor core to thereby prevent concentration of boron in the reactor vessel,  wherein the first flow path is coupled to a bottom of the hot leg so that steam can vent through an upper portion of the pipe, and wherein the first flow path is coupled to the hot leg at an elevation at the top of the reactor core and below the flood up water level in the containment thus establishing a circulatory flow of water from the containment through the core based on differences in water density.  a core makeup tank which is filled with borated water at a predetermined concentration of boric acid and having a drain line for draining the borated water into the reactor vessel and a pressure balance line connecting a top of the core makeup tank to the cold leg;  a vent coupling the pressure balance line to the core makeup tank,  the vent inducing a natural circulatory flow of borated water from within the core makeup tank to the reactor vessel by means of hot water rising into the pressure balance line and flowing into the core makeup tank through the vent.  a reactor vessel having a core;  a reactor coolant system in communication with the reactor vessel;  at least one in-containment refueling water storage tank in communication with the reactor coolant system;  at least one core makeup tank in communication with the reactor coolant system;  at least one accumulator in communication with the reactor coolant system,  the in-containment refueling water storage tank, the at least one core makeup tank and the at least one accumulator being filled with borated water; and  means for filling, draining, and sampling the contents of the in-containment refueling water storage tank, the at least one core makeup tank, and the at least one accumulator to maintain a specified concentration of boric acid in the borated water.  a borated water supply flowable substantially by gravity into the reactor core during a loss of coolant accident; and  means for filling, draining and sampling the borated water supply to maintain specified concentration of boric acid in the reactor core. 2. A passive safety injection system for a nuclear power plant including a reactor vessel having a core, a reactor hot leg and a cold leg, the system comprising: 3. A passive safety injection system as recited in claim 2, wherein the natural circulatory flow is induced prior to cool down. 4. A passive safety injection system for a nuclear power plant comprising: 5. A passive safety injection system as recited in claim 4, further comprising isolation valves associated with each of the in-containment refueling water storage tank, the at least one core makeup tank, and the at least one accumulator to prevent movement of borated water into the reactor coolant system. 6. A passive injection system for a nuclear power plant including a containment, a reactor vessel having a reactor core, and a reactor coolant system comprising: 7. A passive injection system as recited in claim 6, wherein the borated water supply includes at least one core makeup tank, at least one accumulator tank and an in-core refueling water storage tank. 8. A passive injection system as recited in claim 7, wherein the filling, draining and sampling means includes a fill line associated with each tank, and a drain and sample line associated with each tank. 9. A passive injection system as recited in claim 8, further comprising isolation valves associated with each tank to isolate the borated water from the reactor coolant system.