Patent Number: 043222684
Section: claims

1. In a gas-cooled nuclear reactor having a reactor vessel defining a reactor core, at least one primary cooling loop including a primary flow conduit communicating with said core and having primary circulator means adapted to effect flow of coolant through said core, and at least one auxiliary cooling loop including an auxiliary flow conduit communicating with said core and having auxiliary circulator means selectively operable to effect flow of coolant through said core, the improvement wherein said primary and auxiliary flow conduits are axially aligned and defined by a common penetration in said reactor vessel, and including a common flow return duct communicating with said core and intersecting said common penetration to form a common junction with said primary and auxiliary flow conduits so that coolant flow through either of said primary and auxiliary flow conduits is returned to said core through said common flow return duct, said primary and auxiliary circulator means being mounted within said common penetration so as to facilitate selective circulation of flow through said primary and auxiliary cooling loops, and flow diverter means located within said common junction and adapted for selective operation between a first mode operative to effect coolant circulation through only said primary cooling loop and a second mode operative to effect coolant circulation through only said auxiliary cooling loop. 2. The combination as defined in claim 1 wherein said flow diverter means includes a diverter plate moveable between first and second positions to establish said first and second modes of operation. 3. The combination as defined in claim 1 wherein said flow diverter means comprises a flow diverter valve mounted within the reactor at said common junction, said diverter valve including a diverter valve plate rotatably mounted within said common junction for movement between a first position facilitating flow of coolant from said core through said primary cooling loop while isolating said auxiliary cooling loop to prevent flow therethrough, and a second position facilitating flow of coolant from said core through said auxiliary cooling loop while isolating said primary coolant loop to prevent flow therethrough. 4. The combination as defined in claim 3 wherein said diverter valve plate is mounted for rotation about an axis coincident with the axis of said common flow return duct. 5. The combination as defined in claim 4 including linear actuator means operatively associated with said diverter valve plate for effecting selective movement thereof between its said first and second positions. 6. The combination as defined in claim 4 including an actuating shaft secured to said diverter valve plate coaxially with its axis of rotation, and actuator means operatively associated with said actuating shaft for effecting selective rotation of said diverter valve plate through approximately 180 degrees rotation between said first and second positions. 7. The combination of claim 6 wherein said diverter valve plate has a configuration approximating one-half a quarter segment of a sphere.