Patent Number: 
Section: claims

1. A reactor power distribution monitoring system for monitoring a power distribution of a reactor core including fuels, in which the fuels in the core are axially divided into a plurality of nodes, said system comprising: a plurality of incore nuclear instrumentation assemblies arranged in the core, each of said incore nuclear instrumentation assemblies including a plurality of fixed gamma-ray heat detectors, said fixed gamma-ray heat detectors being arranged in correspondence with predetermined nodes which are selected for gamma-ray heat detector positions in the plurality of nodes;  a measuring unit configured to measure an operating status in the reactor core as a core condition data;  a computing device configured to compute a power of each of the nodes of the fuels in the core by the three-dimensional nuclear thermal-hydraulic computing code based on the core condition data transmitted from the measuring unit; and  a computing unit configured to compute a gamma heating value of each of the gamma-ray heat detectors by using each of the powers of each of the nodes computed by the computing device and powers of adjacent nodes computed thereby, each of said nodes surrounding the incore nuclear instrumentation assembly, said adjacent nodes being axially adjacent to each of the nodes, and configured to compare the computed gamma heating value of each of the gamma-ray heat detectors with each of the actually detected gamma heating value of each of the gamma-ray heat detectors so as to correct the power of each of the nodes according to the compared results, thereby obtaining core power distribution in the core. 2. A reactor power distribution monitor system for monitoring a power distribution of a reactor core including fuels, in which the fuels in the core are axially divided into a plurality of nodes, said system comprising: a plurality of incore nuclear instrumentation assemblies arranged in the core, each of said incore nuclear instrumentation assemblies including a plurality of fixed gamma-ray heat detectors, said fixed gamma-ray heat detectors being arranged in correspondence with predetermined nodes which are selected for gamma-ray heat detector positions in the plurality of nodes;  a measuring unit configured to measure an operating status in the reactor core as a core condition data;  a computing device configured to compute a power of each of the nodes of the fuels in the core by the three-dimensional nuclear thermal-hydraulic computing code based on the core condition data transmitted from the measuring unit; and  a computing unit, in a case in which the axially arranged nodes of the fuel are expressed as N in order and one of the nodes of the fuel represents K, configured to compute a gamma heating value of the gamma-heat detector corresponding to the nodes K for each of the incore nuclear assemblies by using power of the nodes K computed by the computing device and powers of adjacent nodes (Kxe2x88x921), (K+1) computed by the computing device, said nodes K surrounding the gamma-heat detector, said adjacent nodes (Kxe2x88x921), (K+1) being axially adjacent to each of the nodes K, and configured to compare the computed gamma heating value of the gamma-heat detector corresponding to the nodes K with actually detected gamma heating values of the gamma-heat detector corresponding to the nodes K so as to correct the power of each of the nodes K according to the compared result.