Patent Number: 054901847
Section: claims

1. A method for determining the power output of a pressurized water reactor having an excore detector system, said method comprising the steps of: determining at a base time thermal power output of said reactor;  measuring detector current in said excore detector system including measuring detector current at said base time;  measuring core inlet temperature including measuring core inlet temperature at said base time;  periodically measuring core three-dimensional power distribution in said reactor including measuring core three-dimensional power distribution in said reactor at said base time; and  determining present core power as the ratio of present detector current to detector current at said base time multiplied by said thermal power at said base time and corrected as a function of changes in said core inlet temperature and in said core three-dimensional power distribution since said base time.  P.sub.r.sup.R =relative core power at said base time which is said thermal power determined at said base time;  I=present detector current;  I.sup.R =detector current at said base time;  Q.sub.wa.sup.R =weighted average core three-dimensional power distribution at said base time;  Q.sub.wa =most recent weighted average core three-dimensional power distribution;  T.sub.i.sup.R =core inlet temperature at said base time;  T.sub.i =present core inlet temperature; and  K=a constant determined from the following relationship: ##EQU11## wherein K is calculated from measurements taken at two different core inlet temperatures.  excore detector means adjacent said reactor for generating a detector current responsive to neutron flux produced by said reactor core;  means for measuring core inlet temperature;  means for determining core three-dimensional power distribution in said reactor core; and  means determining present core power as the ratio of present detector current to detector current at a base time multiplied by thermal power calculated at said base time and corrected as a function of present core inlet temperature and core inlet temperature at said base time measured by said means for measuring core inlet temperatures and as a function of a most recent measurement of core three-dimensional power distribution in said reactor core and core three-dimensional power distribution at said base time measured by said means for measuring core three-dimensional power distribution.  P.sub.r.sup.R =relative core power at said base time which is said thermal power determined at said base time;  I=present detector current;  I.sup.R =detector current at said base time;  Q.sub.wa.sup.R =weighted average core three-dimensional power distribution at said base time;  Q.sub.wa =most recent weighted average core three-dimensional power distribution;  T.sub.i.sup.R =core inlet temperature at said base time;  T.sub.i =present core inlet temperature; and  K=a constant determined from the following relationship: ##EQU13## wherein K is calculated from measurements taken at two different core inlet temperatures. 2. The method of claim 1 wherein said present core power is corrected as a function of a difference between said core inlet temperature at said base time and present core inlet temperature, and as a function of a difference between said three-dimensional core power distribution at said base time and a most recent three-dimensional core power distribution. 3. The method of claim 2 wherein said step of correcting said present core power as a function of changes in core inlet temperature comprises calculating a constant from core power determined at two different core inlet temperatures and then subsequently correcting core power by an exponential term in which said constant is multiplied by a difference in core inlet temperature at said base time and present core inlet temperature. 4. The method of claim 3 wherein said present core power is determined from the relationship: ##EQU10## wherein: P.sub.r =present relative core power; 5. The method of claim 1 wherein said step of measuring said three-dimensional core power distribution comprises utilizing an incore power measurement system to measure said three-dimensional core power distribution. 6. The method of claim 1 wherein said step of measuring said three-dimensional core power distribution comprises measuring core exit temperatures across said reactor and using said core exit temperatures, core inlet temperatures, and excore detector currents to determine said three-dimensional core power distribution. 7. The method of claim 1 wherein said excore detector system includes at least one excore detector having a top detector measuring a top detector current and a bottom detector measuring a bottom detector current and wherein present core power is determined as an average between a top detector core power measurement made using said top detector current and a bottom detector core power measurement made using said bottom detector current. 8. The method of claim 7 wherein said detector system comprises a plurality of excore detectors each having a top detector and a bottom detector and wherein said present core power is determined as an average of said detector top core power measurement and said bottom core power measurement for all of said plurality of excore detectors. 9. A system for determining the power output of a pressurized water reactor system having a reactor with a reactor core with a core inlet through which reactor coolant enters for circulation through said reactor core, a steam generator through which reactor coolant circulated through said reactor core passes before it returns to said core inlet and feedwater means supplying feedwater to said steam generator and providing a feedwater flow measurement from which thermal power generated by said reactor is calculated; said monitoring system comprising: 10. The system of claim 9 wherein said excore detector means comprises plural excore detector means each generating a detector current and wherein said means determining present core power calculates present core power as an average of present core power determined from each of said detector currents. 11. The system of claim 10 wherein plural excore detector means comprises multiple detectors each having a top detector section generating a top detector current and a bottom detector section generating a bottom detector current and wherein said means determining present core power calculates present core power as an average of present core power determined from each of said top detector currents and bottom detector currents. 12. The system of claim 10 wherein said means determining present core power calculates said average of present core power from present core power determined for each detector means according to the relationship: ##EQU12## wherein: P.sub.r =present relative core power; 13. The method of claim 1 wherein said present pressurized water reactor core power is determined on-line.