Patent Number: 051065711
Section: claims

1. A nuclear system of the type including a containment having a nuclear reactor therein, said nuclear reactor including a pressure vessel and a core in said pressure vessel, said system comprising: a heat exchanger;  a pool of water surrounding said heat exchanger;  means for venting said pool of water to the environment outside said containment;  means for admitting a heated fluid from within said containment to said heat exchanger, whereby said heated fluid is cooled, said means including an isolation line connecting the pressure vessel with an inlet of said heat exchanger; and  means for returning cooled fluid from said heat exchanger to said pressure vessel, said means for admitting further including a depressurization valve, said depressurization valve being openable to provide fluid communication from said containment outside said nuclear reactor to said heat exchanger via said pressure vessel and said isolation line.  a suppression pool, said suppression pool containing a supply of water therein, there being an air-containing headspace in said suppression pool above said supply of water,  a check valve for communicating said airspace with said containment, said check valve being operable to vent air in said headspace to said containment when pressure in said headspace exceeds that in said containment,  a chamber, said chamber being connected to an outlet side of said heat exchanger, condensate collecting in said chamber incident cooling of said heated fluid, the means for returning cooled fluid being connected to said chamber, and  a vent line connected to said chamber and extending therefrom to a vent line terminus submerged in the water supply of said suppression pool, any noncondensible gases separated from the cooled fluid being conveyed through said vent line to the suppression pool.  a heat exchanger;  a pool of water surrounding said heat exchanger;  means for venting said pool of water to the environment outside said containment;  means for admitting a heated fluid from within said containment to said heat exchanger, whereby said heated fluid is cooled, a fluid flow passing through said heat exchanger being isolated from said pool of water, said means including an isolation line connecting the pressure vessel with an inlet of said heat exchanger, and a depressurization valve for depressurizing said pressure vessel, said depressurization valve when open providing fluid communication from said environment outside said nuclear reactor to said heat exchanger via said pressure vessel and said isolation line;  means for returning cooled fluid from said heat exchanger to said pressure vessel;  a suppression pool in said containment, said suppression pool comprising a supply of water, there being a substantial gas space over said water supply;  means for venting said nuclear reactor into said suppression pool whereby heated fluid from said nuclear reactor is cooled;  a gravity pool of coolant disposed at an elevation sufficient to permit a flow of coolant from said gravity pool into said nuclear reactor pressure vessel against a predetermined pressure within said nuclear reactor pressure vessel; and  means for reducing a pressure in said nuclear reactor pressure vessel to a value less than said predetermined pressure in the event of a nuclear accident wherein said means for reducing pressure in said nuclear reactor pressure vessel comprises said nuclear reactor pressure vessel venting means.  a gravity pool of coolant disposed at an elevation sufficient to permit a flow of coolant into said nuclear reactor pressure vessel against a predetermined pressure within said nuclear reactor pressure vessel;  means for reducing a pressure of steam in said nuclear reactor pressure vessel to a value less than said predetermined pressure in the event of a nuclear accident, said means including a depressurization valve connected to the pressure vessel, said means further including steam heat dissipating means such dissipating means including  a suppression pool;  a supply of water in said suppression pool, there being a headspace in said suppression pool above said water supply;  a substantial amount of air in said head space;  means for feeding pressurized steam from the nuclear reactor pressure vessel to a location under a surface of said supply of water, said supply of water being effective to absorb heat sufficient to reduce steam pressure below said predetermined pressure; and  a check valve for communicating said headspace with said containment, said check valve being oriented to vent air in said headspace to said containment when a pressure in said headspace exceeds a pressure in said containment by a predetermined pressure differential. 2. A nuclear system according to claim 1 further comprising 3. A nuclear system of a type including a containment having a nuclear reactor therein said nuclear reactor including a pressure vessel and a core in said pressure vessel, said system comprising: 4. A nuclear system of a type including a containment having a nuclear reactor therein, said nuclear reactor including a pressure vessel and a core in said pressure vessel, said system comprising: 5. A nuclear system according to claim 4, wherein the pressure in said headspace includes a head produced by feeding steam to said location under said surface of said supply of water.