Patent Number: 041486854
Section: claims

1. A method for regulating and shutting-down a gas-cooled nuclear reactor of the type having a core comprising a pile of spherical fuel elements through which the cooling gas passes and which are expended after a single pass through the reactor and having a reflector surrounding the core comprising a top reflector spaced from the top of the fuel element pile to define a space therebetween, a cylindrical side reflector and a bottom reflector, said method comprising the steps of: regulating the operation of the reactor by moving first absorber rods from above into and out of recesses provided in the side reflector;  rapidly and partially shutting down the reactor by inserting second absorber rods, independent from said first absorber rods, downwardly through the top reflector and into the space formed between the top reflector and the fuel element pile; and  totally shutting-down the reactor for a long term by inserting third absorber rods, independent from said second absorber rods, downwardly through the top reflector and into the pile of fuel elements.  a pile of generally spherical fuel elements;  a reflector surrounding said fuel element pile, comprising a top reflector spaced from the top of said pile, a generally cylindrical side reflector and a bottom reflector;  means for continuously introducing said fuel elements into and removing same from the reactor;  means for circulating a cooling gas downwardly through the pile of fuel elements;  means, including a plurality of first absorber rods movably contained in recesses in the side reflector, for regulating the operation of the reactor;  means, including a plurality of second absorber rods, independent from said first absorber rods, distributed over the area of the top reflector and adapted to be moved through the top reflector into the pile of fuel elements, for rapidly and partially shutting-down the reactor; and  means, including a plurality of third absorber rods, independent from said second absrober rods, distributed over the area of the top reflector and adapted to be moved through the top reflector into the space formed between the top reflector and the top of the fuel element pile, for totally shutting-down the reactor for an extended period of time. 2. The method as defined by claim 1, wherein said regulating step is a rapid loading adjustment and further comprises inserting a portion of said second absorber rods downwardly through the top reflector and into the space formed between the top reflector and the fuel element pile. 3. The method as defined by claim 2, wherein said regulating step is in response to a load increase from a partial load to full load and comprises inserting selected ones of said second absorber rods. 4. The method as defined by claim 1, wherein said regulating step is in response to a load reduction from full load to a partial load and comprises moving groups of said first absorber rods the same distance in the same direction. 5. The method as defined by claim 1, wherein a plurality of said third absorber rods are inserted to compensate for excess reactivity existing after a long-term shutdown. 6. A gas cooled nuclear reactor for carrying-out the method defined by claim 1, comprising: 7. The nuclear reactor as defined by claim 6, wherein said partial shutdown means comprises means for electrically operating said second absorber rods to one of said operating means. 8. The nuclear reactor as defined by claim 6, wherein said second absorber rods are comprised of boron steel and comprise a Y-shaped cross-section. 9. The nuclear reactor as defined by claim 8, wherein each of said second absorber rods comprises a projection on its upper end and said partial shutdown means further comprises means, including a shock absorption element cooperating with said projection, for arresting said second absorber rods in their lowermost inserted position.