Patent Number: 048428108
Section: claims

1. A nuclear power plant comprising: a cylindrical prestressed concrete pressure vessel defining a cavity exhibiting a liner;  a high temperature reactor arranged eccentrically in said cavity;  a pile of spherical fuel elements arranged in a core of said reactor;  said reactor including a graphite reflector surrounding and defining said core, and means for inserting a plurality of absorber rods into a lateral portion of said reflector and into said core;  a cold gas collector chamber located above said high temperature reactor configured to withstand hot gas temperature levels;  thermal insulation and liner cooling means for removal of decay heat at an elevated temperature arranged on an inside surface of said pressure vessel;  at least two heat exchangers arranged in parallel, and adjacent to said reactor and elevated with respect to said core wherein said heat exchangers are arranged for removal of operational and decay heat;  a blower associated with each heat exchanger arranged in a coolant flow path subsequent to said heat exchanger and configured for downward coolant flow through said pile;  a power generation water-steam loop connected to a secondary side of each heat exchanger.  an external circulation loop connected to said liner cooling means;  an elevated reservoir connected to said external cooling loop;  a recooling circulating loop connected to said reservoir; and  an additional heat sink connected to said recooling circulating loop.  means for introducing fluid to said liner cooling means connected to said external circulating loop. 2. A nuclear power plant according to claim 1, wherein each blower is installed vertically above an associated heat exchanger in a passage in said prestressed concrete pressure vessel. 3. A nuclear power plant according to claim 1, further comprising means for introduction of feed water connected to each heat exchanger located outside said pressure vessel. 4. A nuclear power plant accordng to claim 2, further comprising passage closures located in said passages in said pressure vessel and wherein the prestressed concrete pressure vessel exhibits a configuration and prestressing system arranged to avoid imparting undue stresses on said closures. 5. A nuclear power plant according to claim 1, wherein said thermal insulation is optimized for minimal heat transfer during power operation and optimum heat transfer during the removal of decay heat. 6. A nuclear power plant according to claim 1, configurated so that plant capacity may be increased by addition of heat exchangers and associated blowers. 7. A nuclear power plant according to claim 1, further comprising: 8. A nuclear power plant according to claim 7, further comprising: