Comparison Performance of PI and FPI Controllers for Model Reduction of Binary Distillation Column Plant

Author:

Alawad Nasir Ahmed

Abstract

Distillation is the separation strategy in the oil and compound businesses for cleansing of conclusive items. This paper deals with the reduced dynamic model and control of the distillation tower by applying a multi-loop control framework in Matlab/Simulink for a double blend. The structure objective considered is to guarantee that the top item, the base item, the reflux rate and the reboiler rate stray inside their recommended limits forever and for all the aggravations. This paper proposes an optimal tuning method for fractional Proportional-Integral controller (FPI). The method consists of minimizing Integral Absolute Error (IAE) performance index criterion. Acceptable controller (FPI) is acquired via looking in the space of plan boundaries (Kp,Ki). An example of application (distillation column) plant is presented to evaluate the proposed method. A comparison with classical PI controller and optimal PI shows that the system under fractional state is robust in terms of transient specifications, maximum overshot, settling and rise times. The simulation results shows that more than (21%) improvement for reducing the max-overshot and(65%)improvement for increasing response speed for fractional PI compared with classical PI.MATLAB simulation toolbox is used to show the effectives of the proposed method.

Publisher

ACA Publishing

Subject

General Medicine

Reference27 articles.

1. Skogestad, S., Dynamics and control of distillation columns-a critical survey. Modeling. Identification and Control

2. 18(1997) 177-217.

3. Shinskey, F. G., Distillation control: for productivity and energy conservation: McGraw-Hill (1984).

4. Skogestad, S., The Dos and Don’ts of Distillation Column Control. Chemical Engineering Research and Design 85(2007)13-23.

5. Tepljakov, A. et al., FOPID Controllers and Their Industrial Applications: A Survey of Recent Results. IFAC-PapersOnLine 51(2018)25-30.

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