Patent Number: 046363505
Section: claims

1. A process for alternate operational control, scram, and shutdown of a gas-cooled high-temperature nuclear reactor having a bed of spherical fuel elements, cooling gas flowing through said bed from top to bottom, the fuel elements achieving a desired final burn-up after a signal passage through the bed, said reactor also having a roof reflector, side reflector, and bottom reflector defining a reactor housing containing said bed, said roof reflector and a top surface of said bed defining therebetween a cavity within said reactor housing said reactor also having a plurality of absorber rods insertable from respective first positions in said roof reflector to respective second positions at a predetermined depth in said cavity and further to respective third positions at a predetermined depth in said bed, comprising the step of: inserting only rods comprising a predetermined number of said plurality of said absorber rods into said respective second positons a predetermined distance into said cavity when effecting operational control of power output, said predetermined number being less than the number of absorber rods in said plurality of absorber rods, the remainder of said plurality of absorber rods being maintained in said respective first positions in said roof reflector;  exchanging each of said predetermined number of absorber rods in said respective second position with a respective absorber rod from said remainder by moving said each absorber rod from its second position to its first position and moving said respective absorber rod from its first position to its second position when said each absorber rod originally in its second positon has absorbed a predetermined amount of radiation;  inserting said predetermined number of rods in said respective second positions into said respective third positions at a predetermined depth in said bed to effect a temporary scram as required; and  inserting all of said plurality of absorber rods into said respective third positions to effect a long-term shutdown of said reactor as required.  means for inserting only a predetermined number of said plurality of absorber rods into said respective second positions a predetermined distance into said cavity when effecting operational control of power output, said predetermined number being less than the number of absorber rods in said plurality of absorber rods, the remainder of said plurality of absorber rods being maintained in said respective first positions;  means for exchanging each of said absorber rods in said respective second positions in said cavity with a respective absorber rod in said respective first position in said roof reflector by moving said each absorber rod from its second position into its first position and moving said respective absorber rod from its first position into its second position when said each absorber rod originally in its second position has absorbed a predetermined amount of radiation;  means for inserting absorber rods in respective second positions in said cavity into respective third positions in said bed to effect a temporary scram as required; and  means for inserting all of said plurality of absorber rods into respective third positions to effect a long-term shutdown as required. 2. A proecess as claimed in claim 1, wherein said predetermined number of absorber rods has a value in a range substantially from 25% to 50% of said number of absorber rods in said plurality of absorber rods. 3. A process as claimed in claim 1, wherein said respective third positions are sufficiently deep into said bed that the placement of said predetermined number of absorber rods into their respective third positions effects a .DELTA. K/K of approximately 4.5%. 4. Apparatus for operational control, scram and shutdown of a gas-cooled high-temperature nuclear reactor having a bed of spherical fuel elements, cooling gas flowing through said bed from top to bottom, the fuel elements achieving a desired final burn-up after a single passage through said bed, said reactor also having a roof reflector, side reflector, and bottom reflector defining a reactor housing containing said bed, said roof reflector and a top surface of said bed defining therebetween a cavity within said reactor housing, said reactor also having a plurality of absorber rods insertable from respective first positions in said roof reflector to respective second positons at a predetermined depth in said cavity and further to respective third positions at a predetermined depth in said bed comprising: 5. An apparatus as in claim 4, further comprising neutron absorbing material within a wall of the roof reflector member in the vicinity of an upper terminal position of said predetermined number of said plurality of absorber rods.