Neural network of Gaussian radial basis functions applied to the problem of identification of nuclear accidents in a PWR nuclear power plant

• Published in: Annals of nuclear energy Vol. 77; pp. 285 - 293
• Main Authors: Gomes, Carla Regina, Canedo Medeiros, Jose Antonio Carlos
• Format: Journal Article
• Language: English
• Published: Elsevier Ltd 01.03.2015
• Subjects: Abnormalities; Artificial neural network; Indication; Interpolation; Monitoring; Neural networks; Nuclear power generation; Nuclear power plants; Operators; Pressurized water reactors; Radial basis function; Transient identification; Radial basis function; Interpolation; Artificial neural network; Transient identification
• ISSN: 0306-4549; 1873-2100
• DOI: 10.1016/j.anucene.2014.10.001

•It is presented a new method based on Artificial Neural Network (ANN) developed to deal with accident identification in PWR nuclear power plants.•Obtained results have shown the efficiency of the referred technique.•Results obtained with this method are as good as or even better to similar optimization tools available in the literature. The task of monitoring a nuclear power plant consists on determining, continuously and in real time, the state of the plant’s systems in such a way to give indications of abnormalities to the operators and enable them to recognize anomalies in system behavior. The monitoring is based on readings of a large number of meters and alarm indicators which are located in the main control room of the facility. On the occurrence of a transient or of an accident on the nuclear power plant, even the most experienced operators can be confronted with conflicting indications due to the interactions between the various components of the plant systems; since a disturbance of a system can cause disturbances on another plant system, thus the operator may not be able to distinguish what is cause and what is the effect. This cognitive overload, to which operators are submitted, causes a difficulty in understanding clearly the indication of an abnormality in its initial phase of development and in taking the appropriate and immediate corrective actions to face the system failure. With this in mind, computerized monitoring systems based on artificial intelligence that could help the operators to detect and diagnose these failures have been devised and have been the subject of research. Among the techniques that can be used in such development, radial basis functions (RBFs) neural networks play an important role due to the fact that they are able to provide good approximations to functions of a finite number of real variables. This paper aims to present an application of a neural network of Gaussian radial basis functions for the construction of a diagnostic system that is able to assist the operator in the identification of three nuclear accidents postulated for a nuclear power plant with a pressurized water reactor.