Patent Number: 046474218
Section: claims

1. An operation control method for a nuclear reactor wherein the reactor power of the nuclear reactor having first control means for effecting coarse adjustments of the reactor power and second control means for effecting fine adjustments of the reactor power is controlled in accordance with a predetermined load variation schedule in which variations in load within a predetermined time period are cyclically repeated and which is distinct from a previously followed load variation schedule, comprising the steps of: obtaining a reactivity introduced by operating the control means in a first cycle of said load variation schedule;  obtaining a manipulated variable of said second control means for a second cycle of the load variation schedule which follows the first cycle based on the reactivity introduced in the first cycle; and  effecting control of the reactor power by actuating the second control means in the second cycle based on the manipulated variable obtained in the first cycle.  obtaining a reactivity introduced by operating the control means in a first cycle of said load variation schedule;  obtaining a manipulated variable of said second control means for a second cycle of the load variation schedule which follows the first cycle based on the reactivity introduced in the first cycle; and  operating said second control means based on the manipulated variable obtained in the first cycle when a change in reactivity in the second cycle has become equal to a change in reactivity in the first cycle, to thereby effect control of the reactor power in the second cycle. 2. An operation control method as claimed in claim 1, wherein the reactivity introduced by the operation of the control means is a reactivity introduced by the operation of said first and second control means. 3. An operation control method as claimed in claim 1 or 2, wherein the manipulated variable of the second control means is obtained during the operation period of said first cycle and its value is stored, and the operation of said second control means is performed based on the stored manipulated variable, to thereby control the reactor power during the second cycle. 4. An operation control method as claimed in claim 3, wherein said operation period of the second cycle is split into a plurality of control time units, and a manipulated variable of said second control means for each of said control time units is obtained and stored. 5. An operation control method as claimed in claim 3, wherein said first control means comprises control rods, and said second control means comprises liquid poison concentration adjusting means. 6. An operation control method for a nuclear reactor wherein the reactor power of the nuclear reactor having first control means for effecting coarse adjustments of reactor power and second control means for effecting fine adjustments of reactor power is controlled in accordance with a predetermined load variation schedule in which variations in load within a predetermined time period are cyclicaly repeated and which is distinct from a previously followed load variation schedule, comprising the steps of: 7. An operation control method as claimed in claim 6, wherein the reactor power is controlled in the second cycle, when the change in reactivity in the second cycle is distinct from the change in the first cycle, by following a step in which a reactivity which shows a change with time is set based on the load variation schedule program and data obtained for analyzing dynamic characteristics of a reactor core, a step in which a changing rate of the reactivity set in the preceding step is obtained and a step in which said second control means is operated in accordance with the changing rate obtained in the preceding step, said control of the reactor power being repeatedly performed until the change in the reactivity of the next following cycle becomes equal to the change in the reactivity of the preceding cycle, and said second control means is operated based on the manipulated variable obtained in the preceding cycle, to thereby control the reactor power during the second cycle. 8. An operation control method as claimed in claim 6, wherein the reactivity introduced by the operation of the control means is a reactivity introduced by the operation of said first and second control means. 9. An operation control method as claimed in claim 6 or 8, wherein the manipulated variable of the second control means is obtained during the operation period of said first cycle and its value is stored, and the operation of said second control means is performed based on the stored manipulated variable, to thereby control the reactor power during the second cycle. 10. An operation control method as claimed in claim 9, wherein said operation period of the second cycle is split into a plurality of control time units, and a manipulated variable of said second control means for each of said control time units is obtained and stored. 11. An operation control method as claimed in claim 9, wherein said first control means comprises control rods, and said second control means comprises liquid poison concentration adjusting means. 12. An operation control method as claimed in claim 7, wherein when said first control means is operated, the reactivity set in said step for setting a reactivity which changes with time is corrected based on the reactivity introduced by the operation of said first control means to provide a corrected reactivity, and a changing rate of the corrected reactivity is obtained. 13. An operation control method as claimed in claim 7 or 12, wherein first control means comprises control rods, and said second control means comprises liquid poison concentration adjusting means.