Patent Number: 
Section: claims

1. A method for collecting and designating data regarding an operating condition of a portion of a nuclear reactor core, the method comprising:positioning a first linear array of gamma thermometer (GT) sensors in a first instrument housing, wherein the GT sensors are arranged asymmetrically along the first linear array;positioning a second linear array of GT sensors in a second instrument housing, wherein the GT sensors are arranged asymmetrically along the second linear array and wherein the second linear array of GT sensors is asymmetrical with respect to the first linear array of GT sensors;positioning the first instrument housing in the reactor core at a first core location and positioning the second instrument housing at a second core location symmetrical with respect to the first core location, wherein a line of symmetry of the core extends through a center of the core and the first core location, at which is positioned the first instrument housing and first linear array of GT sensors, and the second core location, at which is positioned the second instrument housing including a second linear array of GT sensors, and the second core location is a same horizontal distance from the line of symmetry as is the first instrument housing, wherein the horizontal distance is along a line perpendicular to the line of symmetry;collecting core condition data from at least one of the GT sensors in the first linear array of GT sensors,designating the collected core condition data as equivalent to core condition data at an elevation on the second linear array that is the same as the elevation of the at least one of the GT sensors in the first linear array; andapplying the designated core condition data and collected core condition data as overall core condition data. 2. The method as in claim 1 wherein at least one of the GT sensors in the first linear array is at a first elevation and the second linear array does not have a GT sensor at the first elevation. 3. The method as in claim 2 wherein the elevation includes a detector for a Local Power Range Monitor (LPRM) adjacent the second linear array, and the method includes calibrating the detector using the collected data from the at least one GT sensor on the first linear array at the same elevation. 4. The method as in claim 1 wherein the second linear array includes a majority of the GT sensors in a lower half of the array and the first linear array includes a majority of the GT sensors in an upper half of the array, and at least one of said GT sensors in the lower half of the array in the first linear array is adjacent each of a plurality of detectors of a first LPRM adjacent the first linear array and at least one of the plurality of detectors in an upper half of the first LPRM has no adjacent GT sensor on the first linear array at the same elevation, and at least one of said GT sensors in the upper half of the array in the second linear array is adjacent each of a plurality of detectors of a second LPRM adjacent the second linear array and at least one of the plurality of detectors in a lower half of the second LPRM has no adjacent GT sensor from the second linear array at the same elevation. 5. The method as in claim 1 wherein the first core location and second core location are at a common distance from a line of symmetry extending through the core. 6. A method for collecting and designating data regarding an operating condition of a portion of a nuclear reactor core, the method comprising:positioning a gamma thermometer (GT) sensor at a first position in the reactor core;collecting core condition data from the GT sensor at the first position,designating the collected core condition data as equivalent to core condition data at a second position in the nuclear core, wherein the second position is at substantially the same elevation in the core as the first position, and the first position and the second position are each a same distance from a line of symmetry which extends horizontally through a center of the core, wherein the horizontal distance is along a line perpendicular to the line of symmetry; andapplying the designated core condition data and collected core condition data as overall core condition data. 7. The method as in claim 6 wherein the second position includes a detector for a Local Power Range Monitor (LPRM) and the method includes calibrating the detector for the LPRM using the collected core condition data. 8. The method as in claim 6 wherein the first position and second position are on opposite sides of the line of symmetry. 9. A method for collecting and designating data regarding gamma flux at positions in a nuclear reactor core, the method comprising:positioning a gamma thermometer (GT) sensor at a first position in the reactor core;collecting gamma flux data from the GT sensor at the first position, wherein the gamma flux data is representative of a gamma flux level at the first position in the core;determining a second position in the core at the same elevation in the core as the first position and at which is equidistant along a line perpendicular to a line of symmetry extending horizontally and through a center of the core,designating the gamma flux data as data collected at the first position as being representative a gamma flux level at the second position in the core; andapplying the designated core condition data and collected core condition data as overall core condition data. 10. The method of claim 9 wherein the core lacks a gamma thermometer (GT) sensor at the second position.