Diseño del sistema de control de la planta del reactor nuclear de lecho fijo (FBNR) a través de la modelación matemática y simulación

Abstract

The goal of the present work was to design the control system for the fixed bed nuclear plant (FBNR) through mathematical modeling and simulation. In order to achieve this objective, the main components of the plant were determined and the respective mass and energy balances were posed. From these balances the mathematical model was simulated to describe the functioning of the plant without control. The mathematical model equations were simulated using the software MATLAB®. For the design of the control system the liberty grades of the process were calculated and the maximum number of controlled variables was determined. A step disturbance was posed to affect the regular functioning of the reactor. This functioning was consequentially normalized trough control strategies, the Ziegler-Nichols method was used in open lope for the tuning of the control parameters. Four controlled variables were established with their respective manipulated variables. The control strategies were probed using P, PI and PID. From these the PID was selected for its better response time.