Patent Number: 045335141
Section: claims

1. A system for degassing a nuclear reactor comprising a nuclear reactor vessel containing a coolant with a concentration of gas therein, the coolant being in a hot temperature state during operation of the nuclear reactor, means for recirculating the coolant in the reactor vessel, means for extracting at least part of the coolant in the recirculating means, means for spraying the extracted coolant during shutdown when the coolant temperature is in at least a range between 130.degree. C. and 100.degree. C. into a space of the nuclear reactor vessel for separating the gas from the coolant, and means for extracting the gas in the space of the nuclear reactor vessel so as to degasify the nuclear reactor vessel for preventing stress corrosion cracking of the nuclear reactor vessel and associated equipment. 2. A system according to claim 1, wherein the nuclear reactor is a boiling water reactor and the space of the nuclear reactor vessel is at an upper portion of the vessel, the coolant contained in the vessel being provided below the space, and means for shutting down the reactor including control rods for being fully inserted into a core of the reactor for shutdown thereof. 3. A system according to claim 15, wherein the nuclear reactor further comprising residual heat removal means connected to the recirculating means, the residual heat removal means including piping containing coolant with a high concentration of gas therein, means for operating the residual heat removal means after completion of insertion of the control rods into the core of the reactor, and means for supplying the coolant in the piping of the residual heat removal means to the spraying means for spraying the coolant into the space of the nuclear reactor vessel for separating the gas from the coolant. 4. A method for degassing a nuclear reactor including a nuclear vessel containing a coolant with a concentration of gas therein, the coolant being in a hot temperature state during operation of the nuclear reactor, the method comprising, during shutdown of the nuclear reactor, the steps of extracting at least part of the coolant having the gas concentration therein from the nuclear reactor vessel, spraying the extracted coolant while in the hot temperature state of at least a range between 130.degree. C. and 100.degree. C. into a space of the nuclear reactor vessel for separating the gas from the coolant, and extracting the gas in the space of the nuclear reactor vessel so as to degasify the nuclear reactor vessel for preventing stress corrosion cracking of the nuclear reactor vessel and associated equipment. 5. A method according to claim 4, wherein the nuclear reactor includes a coolant recirculation system, and the step of extracting at least part of the coolant includes extracting at least a part of the coolant from the coolant recirculation system. 6. A method according to claim 4, wherein the nuclear reactor includes a residual heat removal system connected to the nuclear reactor vessel and containing coolant with a high concentration of gas in a piping of the residual heat removal system, the method further comprising during shutdown, the steps of subsequently operating the residual heat removal system, and the step of spraying including spraying the coolant contained in the piping of the residual heat removal system into the space of the nuclear reactor vessel for separating the gas from the coolant, and extracting the gas from the space. 7. A method according to claim 6, wherein the nuclear reactor generates steam within the nuclear reactor vessel and the steam is supplied to a load, the method further comprising during shutdown, the steps of discontinuing the supply of steam to the load and the step of spraying includes subsequently spraying the coolant in the hot temperature state into the space of the nuclear reactor vessel. 8. A method according to claim 6, wherein the gas contained in the coolant includes oxygen. 9. A method according to claim 6, wherein the nuclear reactor is a boiling water reactor and the space of the nuclear reactor vessel is at an upper portion of the vessel, the coolant contained in the vessel being provided below the space, the shutdown of the reactor including the steps of fully inserting control rods withdrawn from a core of the reactor during operation of the reactor into the core of the reactor for shutdown thereof. 10. A method for degassing a nuclear reactor including a nuclear reactor vessel containing a coolant having a concentration of gas, the vessel having a space in which vapors are generated during operation of the nuclear reactor for being supplied to a load, the method comprising, during start-up of the nuclear reactor, the steps of extracting gas from the space in the nuclear reactor vessel, extracting at least part of the coolant from the nuclear reactor vessel, spraying the extracted coolant having a temperature during start-up of at least in a range between 100.degree. C. and 175.degree. C. into the space of the nuclear reactor vessel for separating gas from the coolant while extracting gas from the space, discontinuing the spraying of the coolant into the space prior to vapors in the space being supplied to the load, and elevating an output of the nuclear reactor to a predetermined level. 11. A method according to claim 10, wherein the nuclear reactor includes a coolant recirculation system, and the step of extracting at least part of the coolant, includes extracting at least a part of the coolant from the coolant recirculation system during start-up of the nuclear reactor. 12. A method according to claim 11, wherein the gas contained in the coolant includes oxygen. 13. A method according to claim 11, wherein the nuclear reactor is a boiling water reactor and the space of the nuclear reactor vessel is at an upper portion of the vessel, the coolant contained in the vessel being provided below the space, the vapors within the space being steam generated during operation of the reactor, and the load including a turbine for driving a generator. 14. A system for degassing a nuclear reactor comprising a nuclear reactor vessel containing a coolant with a concentration of gas therein, the coolant being in a hot temperature state during operation of the nuclear reactor, means for recirculating the coolant in the reactor vessel, means for extracting at least part of the coolant in the recirculating means, means for spraying the extracted coolant during start-up when the coolant temperature is at least in a range between 100.degree. C. and 175.degree. C. into a space of the nuclear reactor vessel for separating the gas from the coolant, and means for extracting the gas in the space of the nuclear reactor vessel so as to degasify the nuclear reactor vessel for preventing stress corrosion cracking of the nuclear reactor vessel and associated equipment. 15. A system according to claim 14, wherein the nuclear reactor is a boiling water reactor and the space of the nuclear reactor vessel is at an upper portion of the vessel, the coolant contained in the vessel being provided below the space, and means for shutting down the reactor including control rods for being fully inserted into a core of the reactor for shutdown thereof. 16. A system according to claim 15, wherein the nuclear reactor further comprises residual heat removal means connected to the recirculating means, the residual heat removal means including piping contaning coolant with a high concentration of gas therein, means for operating the residual heat removal means after completion of insertion of the control rods into the core of the reactor, and means for supplying the coolant in the piping of the residual heat removal means to the spraying means for spraying the coolant into the space of the nuclear reactor vessel for separating the gas from the coolant.