A model predictive controller for load-following operation of PWR reactors

The basic concept of a model predictive control method is to solve on-line, at each time step, an optimization problem for a finite future interval and to implement only the first optimal control input as the current control input. It is a suitable control strategy for time-varying systems, in particular, because the parameter estimator identifies a controller design model recursively at each time step, and also the model predictive controller recalculates an optimal control input at each time step by using newly measured signals. The proposed controller is applied to the integrated power level and axial power distribution controls for a Korea Standard Nuclear Power Plant (KSNP). The power level and the axial shape index are controlled by two kinds of the five regulating control rod banks and the two part-strength control rod banks together with the automatic adjustment of boric acid concentration. The three-dimensional reactor analysis code, Multipurpose Analyzer for Static and Transient Effects of Reactor, which models the KSNP, is interfaced to the proposed controller to verify the proposed controller for controlling the reactor power level and the axial shape index. It is known from numerical simulations that the proposed controller exhibits very fast tracking responses.

[1]  W. Kwon,et al.  A modified quadratic cost problem and feedback stabilization of a linear system , 1977 .

[2]  J. Richalet,et al.  Model predictive heuristic control: Applications to industrial processes , 1978, Autom..

[3]  T. R. Fortescue,et al.  Implementation of self-tuning regulators with variable forgetting factors , 1981, Autom..

[4]  Nam Zin Cho,et al.  Optimal control for xenon spatial oscillations in load follow of a nuclear reactor , 1983 .

[5]  Mehrdad Saif A novel approach for optimal control of a pressurized water reactor , 1989 .

[6]  Manfred Morari,et al.  Model predictive control: Theory and practice - A survey , 1989, Autom..

[7]  Chaung Lin,et al.  Robust control of a boiling water reactor , 1989 .

[8]  Riccardo Scattolini,et al.  Constrained receding-horizon predictive control , 1991 .

[9]  Un-Chul Lee,et al.  Advanced Load Follow Operation Mode for Korean Standardized Nuclear Power Plants , 1992 .

[10]  Nam Zin Cho,et al.  Nonlinear Model-Based Robust Control of a Nuclear Reactor Using Adaptive PIF Gains and Variable Structure Controller , 1993 .

[11]  Manfred Morari,et al.  Robust constrained model predictive control using linear matrix inequalities , 1994, Proceedings of 1994 American Control Conference - ACC '94.

[12]  Wook Hyun Kwon,et al.  On stability of constrained receding horizon control with finite terminal weighting matrix , 1997, 1997 European Control Conference (ECC).

[13]  Jung-In Choi,et al.  Robust Controller Design for the Nuclear Reactor Power Control System , 1997 .

[14]  Wook Hyun Kwon,et al.  Receding horizon H tracking control for time-varying discrete linear systems , 1997 .

[15]  Alexander G. Parlos,et al.  Nonlinear control of U-tube steam generators via H∞ control , 2000 .

[16]  Manfred Morari,et al.  Level control in the steam generator of a nuclear power plant , 2000, IEEE Trans. Control. Syst. Technol..

[17]  Man Gyun Na A Model Predictive Controller for The Water Level of Nuclear Steam Generators , 2001 .

[18]  Han Gyu Joo,et al.  MASTER: REACTOR CORE DESIGN AND ANALYSIS CODE , 2002 .

[19]  Robert M. Edwards,et al.  A Robust Multivariable Feedforward/Feedback Controller Design for Integrated Power Control of Boiling Water Reactor Power Plants , 2002 .

[20]  Man Gyun Na,et al.  A Model Predictive Controller for Nuclear Reactor Power , 2003 .

[21]  Dong Won Jung,et al.  A Receding Horizon Controller with a Parameter Estimator for Nuclear Reactor Power Distribution , 2004 .

[22]  Dong Won Jung,et al.  Design of a nuclear reactor controller using a model predictive control method , 2004 .