Abstract
This paper describes an approach to the creation of a nonlinear model of the core of a pressurized-water reactor operating in real time. The model is designed for development of control algorithms and for studying the operational transients of nuclear power plants. Models of this kind are integral components of a modern computerized supervision and monitoring of the core of light-water reactors. The model can be used to represent a real process in the core and to compute reactor parameters that have a direct bearing on economical, safe operation. It also can be used to calculate changes in the three-dimensional fields of the core as a result of operator actions or random perturbations. The model is linked in parallel to a hierarchical reactor-control parameter [i] for studying and developing optimal core transients.
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