Patent Number: 048511838
Section: claims

1. A nuclear power generating facility, comprising: a substantially vertical borehole in the surface of the earth which is at least 600 feet deep and has a substantially constant diameter;  a casing, extending from the surface of the earth down to at least 600 feet deep, lining the borehole and wherein the casing is completely within the borehole;  a self regulating nuclear reactor, of a diameter less than the diameter of the borehole, within the casing at least 600 feet below the surface of the earth, wherein the reactor generates heat;  means for converting the heat generated by the reactor to electricity, wherein the conversion means is located at or above the surface of the earth;  means for transferring the heat generated by the reactor from the reactor to the conversion means; and  a means for completely and permanently closing all access between the surface of the earth and the reactor through the borehole, wherein said means is located between the reactor and the surface of the earth, and wherein the casing and the borehole have no opening below the closing means sealing the reactor within the casing.  a first acting, high explosive actuated pipe closure; and  a plurality of later acting mechanical valves located between the first acting closure and the surface of the earth. 2. A nuclear power generating facility, as cited in claim 1, wherein the means for completely and permanently closing access is able to completely close access in less than 0.5 seconds after actuation to prevent the accidental upward movement of radioactive materials within the casing after actuation. 3. A nuclear power generating facility, as cited in claim 2, wherein the means for completely and permanently closing access comprises gas driven doors which move from a fully open to fully closed positions in less than or equal to substantially 40 milliseconds against a pressure differential as high as substantially 1600 psi to prevent the accidental upward movement of radioactive materials within the casing after actuation. 4. A nuclear power generating facility, as cited in claim 2, wherein the means for completely and permanently closing access, comprises: 5. A nuclear power generating facility, as cited in claim 1, wherein the means for transferring the heat comprises a heat pipe array. 6. A nuclear power generating facility, as cited in claim 5, wherein the heat pipe array comprises a plurality of thermally coupled heat pipe stages. 7. A nuclear power generating facility, as cited in claim 5, wherein the heat pipe array comprises a first heat exchanger, and a first plurality of heat pipes, which have first ends which are located in the reactor and which have second ends which are located in the first heat exchanger. 8. A nuclear power generating facility, as cited in claim 7, wherein the first ends of the first plurality of heat pipes are conical with the apex of each cone located on the part of the first ends furthest from the second ends, and wherein the second ends of the first plurality of heat pipes are conical with the apex of each cone located on the part of the second ends furthest from the first ends, and wherein the second ends comprise semi-helical baffles. 9. A nuclear power generating facility, as cited in claim 8, wherein the heat pipe array further comprises, a second heat exchanger and a second plurality of heat pipes, which have first ends which are located in the first heat exchanger and second ends located in the second heat exchanger. 10. A nuclear power generating facility, as cited in claim 7, wherein the self regulating nuclear reactor is a self regulating heat pipe controlled nuclear reactor. 11. A nuclear power generating facility, as cited in claim 10, wherein the self regulating nuclear reactor is a self regulating heat pipe controlled, reflector critical nuclear reactor. 12. A nuclear power generating facility, as cited in claim 1, wherein the self regulating nuclear reactor is a fast breeder reactor. 13. A nuclear power generating facility, as cited in claim 1, wherein the diameter of the borehole is less than 6 meters.