Design and Application of a Linear Algebra Based Controller
from a Reduced-Order Model for Regulation and Tracking of Chemical
Processes under Uncertainties
posted on 2019-08-08, 21:15authored byM. Fabiana Sardella, M. Emanuel Serrano, Oscar Camacho, Gustavo J. E. Scaglia
This
work presents a simple controller, tunable by three parameters,
capable of following variable time references. It is a linear algebra
based controller (LABC), developed from a first-order plus dead time
model (FOPDT). Two processes were selected: a high-order linear process
and a transesterification batch reactor from the biodiesel production
process. Constant and variable time references were followed with
very low tracking error. The methodology for the controller design
under different conditions is described and results of simulations
and experimental assays on a batch reactor are shown. Through comparison
against PID and a numerical method based controller presented by other
researchers, the accuracy of LABC is evidenced.