Title :
Multivariable internal model control for a full-scale industrial distillation column
Author :
Wassick, John M. ; Tummala, R. Lal
Author_Institution :
Dow Chem. Co., Midland, MI, USA
Abstract :
A multivariable internal model control system was developed for a full-scale distillation column. The basis for the design of the control is a two-input/two-output matrix of linear transfer functions describing column dynamics. The control system is designed to perform dual composition control of the overhead and bottom products. Hardware constraints dictate multirate sampling of the product concentrations. In addition, the column exhibits inverse response to changes in reflux flow. The multirate sampling is addressed by a unique implementation of a feedforward decoupling control. A reduced-order controller design technique is developed to handle the non-minimum-phase behavior of part of the column. Simulations demonstrate the improvement in control obtained from this approach.<>
Keywords :
chemical technology; control system synthesis; distillation; multivariable control systems; transfer functions; chemical technology; control system synthesis; dual composition control; full-scale industrial distillation column; internal model control; linear transfer functions; multivariable control systems; nonminimum phase behaviour; reduced-order controller design technique; two-input/two-output matrix; Chemical industry; Computational modeling; Control system synthesis; Control systems; Distillation equipment; Electrical equipment industry; Hardware; Industrial control; Process control; Sampling methods;
Journal_Title :
Control Systems Magazine, IEEE
