Patent Number: 042082471
Section: claims

1. A thermal nuclear reactor including a core, neutron detecting means disposed externally of said core, and a control element selectively positionable within said core, said control element comprising a plurality of rods of a material substantially black to thermal neutrons encased in a sealed cladding, one of said rods also including a spontaneous fast neutron emitting source encapsulated in said said material substantially black to thermal neutrons, said source being of sufficient strength to emit neutrons detectable by said detection means upon shutdown of said reactor and location of said control element within said core. 2. A thermal nuclear reactor comprising: a. a reactor vessel;  b. a neutron detector disposed externally of said vessel;  c. a spontaneous fast neutron emitting source and control element rectilinearly movable within said vessel, said element including a neutron source which spontaneously emits fast neutrons through (.alpha.,n) reactions of sufficient strength to be detected by said detector, said source being encapsulated within a sealed enclosure, said enclosure also bounding a plenum in fluid communication with said source, and a sealed cladding encapsulating said enclosure, said cladding also bounding a neutron absorbing control material substantially black to thermal neutrons, said neutron absorbing control material encapsulating said neutron source and said enclosure; and  d. a plurality of vertical coextending fuel assemblies arranged within said vessel to form a nuclear core, one of said assemblies having a guide tube for slidingly receiving said neutron source and control element.  an elongated structure of neutron (n) poison material along a substantial portion of its length, said poison material being substantially black to thermal neutrons, a minor portion of said elongated structure including a spontaneous fast neutron emitting source encased in a material substantially black to thermal neutrons and substantially transparent to neutrons in other energy ranges, said source emitting neutrons of sufficient strength to be detected by said detector while said reactor is in a shutdown condition, said neutron emitting source comprising plutonium-238 and beryllium, whereby plutonium-238 spontaneously emits alpha (.alpha.) particles which react with the beryllium in an (.alpha.,n) reaction to spontaneously produce said fast neutrons. 3. The reactor of claim 2 including means for controlling the position of said neutron emitting source and control element such that said source is selectively positionable within said core at power levels below a preselected value and positionable out of said core at power levels above a preselected value, and at least a portion of said substantially black material is positionable within said core when said source is either within or out of said core. 4. A control element adapted for a thermal nuclear reactor having a core, an ex-core neutron detector, and means for reciprocatingly inserting said element into said core comprising: