Patent Number: 052689425
Section: claims

1. In combination with a nuclear power generating facility including: a composite fuel pool including a reactor cavity and a spent fuel pool fluidly connectable to said reactor cavity, said composite fuel pool at least partially containing a primary fluid;  a nuclear reactor vessel positioned in said reactor cavity;  a residual heat removal system installed in said facility and fluidly connectable to said reactor vessel; and  a spent fuel pool cooling system installed in said facility and fluidly connectable to said spent fuel pool;  a primary heat exchange means for transferring heat from a primary fluid to a secondary cooling fluid, said primary heat exchange means being temporarily positioned in said facility and having a primary inlet and a primary outlet, and a secondary inlet and a secondary outlet, said secondary inlet being fluidly connectable to a secondary cooling fluid supply line and said secondary outlet being fluidly connectable to a secondary cooling fluid return line;  a primary pump being temporarily positioned in said facility and having an inlet and an outlet;  a primary pump suction line having an inlet end and an outlet end, said inlet end removably and fluidly connected to said composite fuel pool and said outlet end fluidly connected to said inlet of said primary pump;  a primary pump discharge line having an inlet end and an outlet end, said inlet end fluidly connected to said outlet of said primary pump and said outlet end fluidly connected to said primary inlet of said primary heat exchange means; and  a primary return line having an inlet end and an outlet end, said inlet end fluidly connected to said primary outlet of said primary heat exchange means and said outlet end removably and fluidly connected to said composite fuel pool.  a secondary heat exchange means for cooling said secondary cooling fluid, said secondary heat exchange means having a secondary cooling fluid inlet and a secondary cooling fluid outlet, said secondary cooling fluid inlet being fluidly connected to a secondary cooling fluid return line, and said secondary cooling fluid outlet being fluidly connected to a secondary cooling fluid supply line;  a secondary cooling fluid return line having an inlet end and an outlet end, said inlet end being fluidly connected to said secondary outlet of said primary heat exchange means, and said outlet end being fluidly connected to said secondary cooling fluid inlet of said secondary heat exchange means; and  a secondary cooling fluid supply line having an inlet end and an outlet end, said inlet end being fluidly connected to said secondary cooling fluid outlet of said secondary heat exchange means, and said outlet end being fluidly connected to said secondary inlet of said primary heat exchange means.  a composite fuel pool including a reactor cavity and a spent fuel pool fluidly connectable to said reactor cavity;  a nuclear reactor vessel positioned in said reactor cavity, said nuclear reactor vessel containing a primary fluid at an operating level;  a residual heat removal system installed in said facility and fluidly connectable to said reactor vessel; and  a spent fuel cooling system installed in said facility and fluidly connectable to said spent fuel pool;  temporarily and fluidly connecting a primary heat exchange system to said composite fuel pool, said primary heat exchange system being adapted to cool said primary fluid at a faster rate than said spent fuel pool cooling system;  raising said primary fluid from said operating level to a refueling level, at least partially filling said composite fuel pool with said primary fluid;  circulating said primary fluid in said primary heat exchange system in order to reach and maintain a desired temperature of said primary fluid; and  removing said primary heat exchange system from said facility. 2. A temporary cooling system according to claim 1, further comprising a secondary heat exchange system, including: 3. A temporary cooling system according to claim 2, wherein said secondary heat exchange system further comprises a regulator means, connected to said secondary heat exchange system, for maintaining an operating pressure of said secondary cooling fluid higher than an operating pressure of said primary fluid. 4. A temporary cooling system according to claim 3, wherein said regulator means includes a backpressure valve, fluidly connected in said secondary cooling fluid return line between said primary heat exchange means and said secondary heat exchange means. 5. A temporary cooling system according to claim 1, wherein said primary heat exchange system further includes a particulate filter, fluidly connected in said temporary cooling system between said composite fuel pool and said primary heat exchange means. 6. A temporary cooling system according to claim 1, wherein said primary heat exchange system further includes a demineralization means for removing minerals from said primary fluid, fluidly connected in said temporary cooling system between said composite fuel pool and said primary heat exchange means. 7. A temporary cooling system according to claim 5, wherein said primary heat exchange system further includes a demineralization means for removing minerals from said primary fluid, fluidly connected in said temporary cooling system between said particulate filter and said primary heat exchange means. 8. A temporary cooling system according to claim 1, wherein said primary heat exchange system further comprises a regulator means, fluidly connected to said secondary cooling fluid outlet, for maintaining an operating pressure of said secondary cooling fluid higher than an operating pressure of said primary fluid. 9. A temporary cooling system according to claim 2, wherein said primary heat exchange system further includes a particulate filter, fluidly connected in said temporary cooling system between said composite fuel pool and said primary heat exchange means. 10. A temporary cooling system according to claim 3, wherein said primary heat exchange system further includes a particulate filter, fluidly connected in said temporary cooling system between said composite fuel pool and said primary heat exchange means. 11. A temporary cooling system according to claim 3, wherein said primary heat exchange system further includes a demineralization means for removing minerals from said primary fluid, fluidly connected in said temporary cooling system between said composite fuel pool and said primary heat exchange means. 12. A temporary cooling system according to claim 3, wherein said primary heat exchange system further includes a demineralization means for removing minerals from said primary fluid, fluidly connected in said temporary cooling system between said composite fuel pool and said primary heat exchange means. 13. A temporary cooling system according to claim 9, wherein said primary heat exchange system further includes a demineralization means for removing minerals from said primary fluid, fluidly connected in said temporary cooling system between said particulate filter and said primary heat exchange means. 14. A temporary cooling system according to claim 10, wherein said primary heat exchange system further includes a demineralization means for removing minerals from said primary fluid, fluidly connected in said temporary cooling system between said particulate filter and said primary heat exchange means. 15. A temporary cooling system according to claim 1, wherein said primary heat exchange means includes a plate-type heat exchanger. 16. A temporary cooling system according to claim 2, wherein said secondary heat exchange means includes a cooling tower. 17. In a nuclear power generating facility including: 18. A method for cooling according to claim 17, further comprising the step of filtering particulate matter from said primary fluid during said step of circulating said primary fluid. 19. A method for cooling according to claim 17, further comprising the step of demineralizing said primary fluid during said step of circulating said primary fluid. 20. A method for cooling according to claim 18, further comprising the step of demineralizing said primary fluid during said step of circulating said primary fluid. 21. A temporary cooling system according to claim 1, further comprising a flow distribution means, connected to a portion of said primary return line which is submersible in said composite fuel pool, for distributing return flow of said primary fluid into said composite fuel pool. 22. A temporary cooling system according to claim 21, wherein said flow distribution means comprises a plurality of flow distribution holes provided in said primary return line, positioned so as to evenly distribute flow of said primary fluid so as to minimize turbulence within said composite fuel pool. 23. A temporary cooling system according to claim 1, further comprising an antisiphon means, connected to a portion of said primary pump suction line which is submersible in said composite fuel pool, for preventing siphoning of said primary fluid out of said composite fuel pool when said primary fluid in said composite fuel pool falls below an undesirable level. 24. A temporary cooling system according to claim 23, wherein said anti-siphon means comprises at least one anti-siphon hole provided in said primary pump suction line, positioned at said undesirable level within said composite fuel pool.