Patent Number: 049833537
Section: claims

1. A steam generator for receiving nonradioactive liquid sodium from a sodium cooled reactor at an intermediate heat exchanger and generating steam for producing power, said steam generator comprising: first and second upstanding cylindrical vessels; said first upstanding cylindrical vessel being exterior, and larger than said second cylindrical vessel, said first vessel closed at the top to define an inert gas plenum and closed at the bottom to define a sodium plenum; a sodium inlet defined at the top of said first vessel for supplying sodium from said intermediate heat exchanger into an interstitial volume between the inside of said first vessel and the outside of said second vessel;  a sodium outlet communicated to said sodium plenum at the bottom for returning sodium to said intermediate heat exchanger in said reactor;  said second cylindrical vessel being interior and smaller than said first cylindrical vessel, said second vessel open to the bottom of said first cylindrical vessel at said sodium plenum and open at the top to said inert gas plenum within said first cylindrical vessel;  at least one inlet feedwater plenum at the bottom of said first cylindrical vessel communicated to the interstitial volume between said first cylindrical vessel and said second cylindrical vessel;  at least one steam outlet plenum at the top of said first vessel communicated to the interstitial volume between said first cylindrical vessel and said second cylindrical vessel;  a plurality of tubes communicated to said feed water inlet plenum at the bottom and said steam outlet plenum at the top, said tubes being coiled in the interstitial volume between said first and second upstanding cylindrical vessels;  a standing head of sodium in the interstitial volume in said second cylindrical vessel, said standing head of sodium supported by sodium pressure at said sodium plenum; and  a rupture diaphragm defined at the bottom plenum of said steam generator, said rupture diaphragm opening responsive to a sodium-water reaction on a casualty involving tube breakage;  said second cylindrical vessel defining means for relieving pressure and flow from an explosive reaction at said tubes through said second cylindrical vessel for opening and rupturing said rupture diaphragm along a path independent of said tubes whereby reactives and the continuing steam and feedwater flow through the broken tubes can pass from said inert gas plenum through said volume interior of said second cylindrical vessel to said diaphragm without causing a sufficiently high pressure drop to cause the sodium/steam interface to be forced back into the intermediate heat exchanger.  a sodium reactor having a core for said reactor defining a primary sodium loop and a secondary sodium loop;  an intermediate heat exchanger located within said sodium reactor;  first pumping means for pumping sodium in said primary sodium loop through said core through said intermediate heat exchanger and through said pump in an endless loop for carrying the heat of said core to said intermediate heat exchanger;  a steam generator, said steam generator for receiving nonradioactive liquid sodium from the intermediate heat exchanger of said sodium cooled reactor and generating steam for producing power;  second pumping means for pumping sodium in said secondary loop from said intermediate heat exchanger and through said steam generator;  said steam generator including first and second concentric upstanding cylindrical vessels;  said first upstanding cylindrical vessel being exterior, and larger than said second cylindrical vessel, said first cylindrical vessel closed at the top to define a gas plenum overlying the top of said sodium and closed at the bottom to provide a sodium plenum;  a sodium inlet defined at the top of said first vessel for supplying heated sodium from the secondary loop in said sodium reactor into an interstitial volume between the inside of said first vessel and the outside of said second vessel;  a sodium outlet communicated from the bottom of said first cylindrical vessel for the discharge of sodium back to said intermediate heat exchanger in said secondary sodium loop;  said second cylindrical vessel being interior of and smaller than said first cylindrical vessel, said second cylindrical vessel open to the bottom of said first cylindrical vessel at said sodium plenum and defining at the top an opening to gas plenum within said first cylindrical vessel;  at least one inlet feedwater plenum at the bottom of said first cylindrical vessel communicated to the interstitial volume between said first cylindrical vessel and said second cylindrical vessel;  at least one steam outlet plenum at the top of said first cylindrical vessel communicated to the interstitial volume between said first cylindrical vessel and said second cylindrical vessel;  a plurality of tubes communicated to said feedwater inlet plenum at the bottom of said steam outlet plenum, said tubes being coiled in the interstitial volume between said first and second upstanding cylindrical vessels;  a standing head of sodium in the interior of said second upstanding cylindrical vessel, said standing head of sodium supported by sodium pressure at said lower plenum; and  a rupture diaphragm defined at the bottom plenum of said steam generator means for relieving pressure and flow from an explosive reaction at said tubes through said second vessel for opening and rupturing said rupture diaphragm along a path independent of said tubes whereby reactives and the continuing steam and feedwater flow from broken tubes in said steam generator can pass through the volume interior of said second cylindrical vessel to said rupture diaphragm without causing the sodium-steam interface to be forced back into said intermediate heat exchanger of said reactor.  said third upstanding cylindrical vessel defining said outlet for said sodium to said intermediate heat exchanger, said third upstanding cylindrical vessel defining in the interstices to said second cylindrical vessel a path for reactants to pass out from the top of said first upstanding cylindrical vessel through said rupture diaphragm without causing a sufficiently high pressure drop to cause the steam sodium interface to be forced back into said intermediate heat exchanger. 2. The invention of claim 1 and including a third upstanding cylindrical vessel, said third upstanding cylindrical vessel open at the bottom to receive sodium and communicated at the top to said sodium outlet at the top, said third cylindrical vessel being interior of and smaller than said second cylindrical vessel. 3. The invention of claim 2 and wherein said third cylindrical vessel includes a sodium pump, said pump disposed to pump sodium from the bottom and open end of said third cylindrical vessel to the top of cylindrical vessel for recirculation to said intermediate heat exchanger of said reactor heating sodium. 4. In combination: 5. The apparatus of claim 4 and including a third upstanding cylindrical vessel, said third upstanding cylindrical vessel open at the bottom to communicate to said sodium plenum; and, 6. The invention of claim 5 and including at least one pump disposed interior of said third upstanding cylindrical vessel for pumping liquid sodium from said lower plenum into and out of the top of said third upstanding cylindrical vessel.