Patent Number: 047598999
Section: claims

1. A nuclear reactor comprising: a closed vessel containing a pool of secondary coolant;  a reactor core located within said pool, said core having an upper end and a lower end, and having a plurality of passages extending therebetween to enable upward flow of coolant through the core;  an inlet conduit system for directing primary coolant to said lower end of said core, said inlet conduit system having one or more openings formed therein to enable fluid communication between said inlet conduit system and said pool;  pumping means for effecting flow of said primary coolant into said inlet conduit system;  an outlet conduit system located above said core for receiving coolant from said upper end of said core and carrying it to an exterior outlet pipe, said outlet conduit system having one or more openings therein to enable fluid communication between said outlet conduit system and said pool; and  pressure reduction means for reducing fluid pressure in said inlet conduit system adjacent all of said one or more openings therein by locally increasing fluid velocity adjacent all of said one or more openings, thereby providing a balance between pressure within the inlet conduit system and pool pressure adjacent said one or more openings, substantially preventing flow of coolant through said openings in said inlet and outlet conduit system during operation of said pumping means;  said pressure reduction means being responsive to variations in flow rate to enable forced flow of said primary coolant through said core at various rates selected independently of core reactivity without undesirable intermixing of primary and secondary coolant;  whereby under normal operating conditions, coolant flows in a primary cooling circuit and flow through said openings is minimal, but in the event of failure of said coolant supply means, natural convection will cause secondary coolant from said pool to circulate through a secondary cooling circuit into said openings in said inlet conduit system, through said core, and out of said openings in said outlet conduit system.  a closed vessel containing a pool of secondary coolant;  a core located within said pool, said core having an upper end and a lower end, and having a plurality of passages extending therebetween to enable upward flow of coolant through the core;  an inlet conduit system for directing primary coolant to said lower end of said core from an exterior coolant supply pipe, said inlet conduit system having one or more openings formed therein to enable fluid communication between said inlet conduit system and said pool;  an outlet conduit system located above said core for receiving coolant from said upper end of said core and carrying it to an exterior outlet pipe, said outlet conduit system having one or more openings therein to enable fluid communication between said outlet conduit system and said pool;  pumping means for forcing liquid coolant into said inlet conduit system; and  means for locally increasing coolant velocity within said inlet conduit system all of adjacent said openings therein so as to balance pressure within said inlet conduit system adjacent said openings with pressure in said pool adjacent said openings;  whereby under normal operating conditions, coolant flows in a primary cooling circuit which includes said exterior pipes and flow through said openings is minimal, but in the event of failure of said coolant supply means, natural convection will cause secondary coolant from said pool to circulate through a secondary cooling circuit into said openings in said inlet conduit system, through said core, and out of said openings in said outlet conduit system.  a closed vessel containing a pool of secondary coolant;  a core located within said pool, said core having an upper end and a lower end, and having a plurality of passages extending therebetween to enable upward flow of coolant through the core;  an inlet conduit system for directing primary coolant to said lower end of said core from an exterior coolant supply pipe, said inlet conduit system having one or more openings formed therein to enable fluid communication between said inlet conduit system and said pool;  an outlet conduit system located above said core for receiving coolant from said upper end of said core and carrying it to an exterior outlet pipe, said outlet conduit system having one or more openings therein to enable fluid communication between said outlet conduit system and said pool;  pumping means for forcing liquid coolant into said inlet conduit system; and  means for locally increasing coolant velocity within said inlet conduit system adjacent said openings therein so as to balance pressure within said inlet conduit system adjacent said openings with pressure in said pool adjacent said openings;  whereby under normal operating conditions, coolant flows in a primary cooling circuit which includes said exterior pipes and flow through said openings is minimal, but in the event of failure of said coolant supply means, natural convection will cause secondary coolant from said pool to circulate through a secondary cooling circuit into said openings in said inlet conduit system, through said core, and out of said openings in said outlet conduit system;  said means for locally increasing coolant velocity comprising one or more venturi throats;  each of said openings in said inlet conduit system comprising an annular gap in one of said venturi throats;  said nuclear reactor further comprising adjustable means for varying internal cross-sectional area in said one or more venturi throats;  said adjustable means comprising one or more movable, generally conical obstructions. 2. A nuclear reactor in accordance with claim 1 further comprising means for cooling said pool of secondary coolant by natural convection. 3. A nuclear reactor comprising: 4. A reactor in accordance with claim 3 wherein said inlet conduit system includes a length of pipe having a minimum internal cross-sectional area adjacent said openings. 5. A nuclear reactor in accordance with claim 3 wherein said means for locally increasing coolant velocity comprises one or more venturi throats. 6. A nuclear reactor in accordance with claim 5 wherein each of said openings in said inlet conduit system comprises an annular gap in one of said venturi throats. 7. A nuclear reactor in accordance with claim 6 further comprising adjustable means for varying internal cross-sectional area in said one or more venturi throats. 8. A reactor in accordance with claim 7 wherein said adjustable means comprises one or more movable, generally conical obstructions. 9. A reactor in accordance with claim 3 further comprising means for cooling said pool. 10. A reactor in accordance with claim 9 wherein said means for cooling said pool includes a reservoir of tertiary coolant located outside of said vessel; a cooler for circulation of said tertiary coolant located within said vessel; and means for enabling circulation of said tertiary coolant between said reservoir and said cooler and through said cooler, and wherein said reservoir is located so as to enable circulation of coolant from said reservoir to said cooler by natural convection. 11. A reactor in accordance with claim 10 wherein said cooler is configured so that said tertiary coolant is heated as it flows through said cooler and travels upward as it is heated. 12. A nuclear reactor comprising: