Patent Number: 040574652
Section: claims

1. An auxiliary heat removal system for use in a gas-cooled nuclear reactor system to remove residual heat retained in the reactor core after reactor shutdown comprising: a first recycling flow loop for conducting gaseous primary cooling fluid heated by said reactor core, said first flow loop including said reactor core, a gas turbine, a first heat exchanging means, and a compression means connected in series therein, and first conduit means for transporting said primary fluid from said core to said gas turbine, said first heat exchanging means, and said compression means in series, and for returning said primary fluid to said reactor core;  a second flow loop for conducting a second cooling fluid, said second flow loop including a fluid pump, second conduit means for transporting said second fluid from said fluid pump to said first heat exchanging means, and means for removing heat from said second cooling fluid, said second fluid being in thermal communication with said primary fluid in said first heat exchanging means;  said fluid pump and said compression means being mechanically coupled to, and driven by, said gas turbine; and  starter means for initiating operation of said gas turbine, said starter means being responsive to preselected conditions of said nuclear reactor system and comprising:  a pneumatic starter;  a container of starter fluid in fluid communication with said starter, said starter fluid being pressurized within said container, and;  a starter valve disposed in the flow path between said pneumatic starter and said container, said starter valve controlling the flow of said starter fluid from said container to said pneumatic starter.  extracting means for diverting a portion of said primary fluid exiting from said compression means to said container of starter fluid, and;  a starter-fluid pump mechanically coupled to, and driven by, said gas turbine, said starter fluid pump pumping said primary fluid through said extracting means.  said fluid pump is mechanically coupled to said gearbox, said gas turbine driving said fluid pump through said gearbox.  said means for removing heat from said second fluid comprises:  a liquid-to-air secondary heat exchanger through which said second fluid flows;  circulating means for forcing air flow over said heat exchanger; and  a liquid turbine in fluid communication with said second fluid, said second fluid passing through said liquid turbine before entering said heat exchanger, said liquid turbine being interconnected to said circulating means such that said liquid turbine drives said circulating means.  said first heat exchanging means comprises a gas-to-air primary heat exchanger; and,  said second fluid is rejected to the atmosphere after said second fluid has received heat from said primary fluid.  said first heat exchanging means comprises;  a supply of water;  third conduit means for transporting said water from said supply of water to said fluid pump, and from said first heat exchanging means to said supply of water; and  rejecting said second fluid to said supply of water after said second fluid has received heat from said primary coolant.  a first recycling flow loop for conducting gaseous primary cooling fluid heated by said reactor core, said first flow loop including said reactor core, a gas turbine, a first heat exchanging means, and a compression means connected in series therein, and first conduit means for transporting said primary fluid from said core to said gas turbine, said first heat exchanging means, and said compression means in series, and for returning said primary fluid to said reactor core;  a second flow loop for conducting a second cooling fluid, said second flow loop including a fluid pump, second conduit means for transporting said second fluid from said fluid pump to said first heat exchanging means, and means for removing heat from said second fluid, said second fluid being in thermal communication with said primary fluid in said first heat exchanging means;  said fluid pump and said compression means being mechanically coupled to, and driven by, said gas turbine;  starter means for initiating operation of said gas turbine, said starter means being responsive to preselected conditions of said nuclear reactor system; and  a plurality of temperature-dependent flow controllers parallelly installed in said first conduit means between said core and said gas turbine, said flow controllers regulating the quantity of said primary fluid being supplied to said gas turbine.  said flow controllers regulating the quantity of said primary fluid being supplied to said gas turbine such that increases in the temperature of said primary fluid increase the quantity of said primary fluid being supplied to said gas turbine.  said means for removing heat from said second fluid comprises:  a liquid-to-air secondary heat exchanger through which said second fluid flows;  circulating means for forcing air flow over said heat exchanger; and  a liquid turbine in fluid communication with said second fluid, said second fluid passing through said liquid turbine before entering said heat exchanger, said liquid turbine being interconnected to said circulating means such that said liquid turbine drives said circulating means.  a first recycling flow loop for conducting gaseous primary cooling fluid heated by said reactor core, said first flow loop including said reactor core, a gas turbine, a first heat exchanging means, and a compression means connected in series therein, and first conduit means for transporting said primary fluid from said core to said gas turbine, said first heat exchaning means, and said compression means in series, and for returning said primary fluid to said reactor core;  a second flow loop for conducting a second cooling fluid, said second flow loop including a fluid pump, second conduit means for transporting said second fluid from said fluid pump to said first heat exchanging means, and means for removing heat from said second cooling fluid, said second fluid being in thermal communication with said primary fluid in said first heat exchanging means;  said fluid pump and said compression means being mechanically coupled to, and driven by, said gas turbine;  starter means for initiating operation of said gas turbine, said starter means being responsive to preselected conditions of said nuclear reactor system;  a supporting turbine connected in parallel with said gas turbine, said supporting turbine being of the gaseous-powered variety, said primary fluid flowing through said supporting turbine, said supporting turbine being driven by said, primary fluid said supporting turbine being larger than said gas turbine, said supporting turbine requiring higher primary fluid temperatures for operation than said gas turbine, whereby as said primary fluid temperature decreases, said supporting turbine ceases operating prior to said gas turbine ceasing operating; and  supporting turbine starting means for initiating operation of said supporting turbine.  said means for removing heat from said second fluid comprises:  a liquid-to-air secondary heat exchanger through which said second fluid flows;  circulating means for forcing air flow over said heat exchanger; and  a liquid turbine in fluid communication with said second fluid, said second fluid passing through said liquid turbine before entering said heat exchanger, said liquid turbine being interconnected to said circulating means such that said liquid turbine drives said circulating means. 2. The system according to claim 1 wherein said starter means comprises: 3. The system according to claim 1 wherein said starter valve is responsive to the temperature of said primary fluid and said nuclear core such that, upon attainment of a predetermined temperature, said starter valve permits said starter fluid to flow from said container to said pneumatic starter. 4. The system according to claim 1 wherein a power take-off gearbox is mechanically coupled to said gas turbine; and 5. The system according to claim 1 wherein said second fluid is a liquid, and 6. The system according to claim 5 wherein said second fluid is water. 7. The system according to claim 1 wherein said second fluid is air; 8. The system according to claim 1 wherein said second fluid is water; 9. An auxiliary heat removal system for use in a gas-cooled nuclear reactor system to remove residual heat retained in the reactor core after reactor shutdown comprising: 10. The system according to claim 4 wherein said flow controllers are dependent upon the temperature of said primary fluid; and 11. The system according to claim 10 wherein said flow controllers are temperature-dependent valves. 12. The system according to claim 9 wherein said second fluid is a liquid, and 13. An auxiliary heat removal system for use in a gas-cooled nuclear reactor system to remove residual heat retained in the reactor core after reactor shutdown, comprising: 14. The system according to claim 13 wherein said supporting turbine is mechanically coupled to, and drives said compression and said fluid pump. 15. The system according to claim 13 wherein said means for starting operation of said supporting turbine comprises said gas turbine providing the starting force for said supporting turbine. 16. The system according to claim 13 wherein said second fluid is a liquid, and