Metamodel-based numerical techniques for self-optimizing control.

Abstract

Self-optimizing control technologies are a well-known study field of control structure design, having a robust mathematical background. With the aid of commercial process simulators and numerical packages, process modelling became an easier task. However, dealing with extremely large and complex systems still is a tedious task, and sometimes notm feasible, even with these innovative tools. Surrogate models, also called metamodels, can be used to substitute partially or totally the original mathematical models for prediction and optimization purposes, reducing the complexity of evaluating large-scale and highly non-linear processes. This work aims at applying recent self-optimizing control techniques to surface responses of processes using kriging method as reduced model builder. A procedure to apply Self-Optimizing control to surrogate responses was described in detail, together with how the optimization can be done. Well-known case studies had their surface responses successfully built and analyzed to generate using the techniques cited, the optimal selection of controlled variables that minimizes the worst-case loss, and the same results were found when compared with the implementation in the original models from previous authors. The results indicate the effectiveness of the reduced models when applied to design self-optimizing control structures, simplifying the task.