Patent Number: 044787847
Section: claims

1. In a nuclear reactor having components operative to generate reaction heat, means to utilize the reaction heat, and spaced structures including a vessel and a deck for enclosing and isolating the reactor components from a cooler external heat sink, the improved combination therewith of a plurality of heat pipes each having a vaporizing section and a pair of condensing sections, each vaporizing section being disposed in heat transfer relation with one of such structures and one of the pairs of condensing sections being in heat transfer relation with another of the structures spaced from the one structure while the other of the condensing sections being in heat transfer relation with the external heat sink, each heat pipe having an exterior housing sealed closed and wick means disposed on the inner faces of the heat pipe housing and a coolant sealed within the heat pipe housing, said coolant being at pressures within the heat pipe housing for vaporizing at the operating temperatures intended for the one structure and for condensing at the operating temperatures of the other structure and of the heat sink, whereby heat is passively transferred via each heat pipe from the one structure to the spaced structure and to the heat sink, enclosure means for normally reducing the effective heat transfer of said other condensing section relative to the heat sink, and means for venting the enclosure means responsive to operating conditions where the one structure approaches the upper limit of and overheats relative to its range of operating temperatures, whereupon the other condensing section becomes operative to provide additional cooling capacity for the heat pipe thereby tending to maintain the structures in the intended range of operating temperatures. 2. A nuclear reactor combination according to claim 1, wherein said condensing sections and said vaporizing section in each heat pipe are in continuous heat transfer relation with one another via the heat pipe, and wherein said one condensing section is disposed between the vaporizing section and the other condensing section, whereby heat pipe is effective to continuously transfer heat from the vaporizing section to the one condensing section for maintaining the respective temperatures of each within the intending operating range and whereby each other condensing section serves mainly to prevent overheating when the overall temperatures increases. 3. In a nuclear reactor, the combination of an open top vessel for confining liquid coolant, deck structure supported at its periphery relative to the open top of the vessel for closing and sealing the vessel, reactor components suspended from the deck structure and extended into the vessel, the deck being formed of separate lower and upper horizontal walls and reinforcing vertical walls between the lower and upper walls, a plurality of heat pipes each having a vaporizing section and one condensing section disposed in heat transfer relation respectively, with the lower and upper deck walls, whereby heat is transferred from the lower deck wall to the upper deck wall for maintaining the deck walls generally within a range of specific design temperatures, wherein each heat pipe further has another condensing section outside of the vessel spaced from the upper deck wall and exposed to a heat sink of air outside of and ambient the deck structure, and means normally minimizing the effective heat transfer of the other condensing section relative to the heat sink in all operating conditions except under reactor overheat conditions, whereupon the other condensing section becomes operative to add additional cooling capacity to each heat pipe. 4. A nuclear reactor combination according to claim 3, wherein the minimizing means is in the form of an enclosure over the other condensing section operable to isolate it from the heat sink, vent openings in the enclosure operable to allow effective heat transfer between the other condensing section and the heat sink, and means normally closing the vent means and for opening the vent means responsive to the reactor approaching and exceeding the upper limits of the range of design temperatures.