Process control modeling and analysis of a binary packed distillation column

Process control modeling and analysis of a binary packed distillation column

Process Control Modeling and Analysis of a Binary Packed Distillation Column using structured packings are studied through this thesis. The simulation of the steady state behavior used a new approach of employing mass and heat fluxes in determining the liquid and vapor compositions and flowrates wit...

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Bibliographic Details
Main Author: Ilagan, Mary Ann Luz C.
Format: text
Language:English
Published: Animo Repository 1997
Subjects:
Chemical process control
Distillation
Algorithms
Packed towers
Binary control systems
Separation (Technology)
x4 Column
Packed
Chemical Engineering
Online Access:https://animorepository.dlsu.edu.ph/etd_masteral/1874
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Institution: De La Salle University
Language: English
Description
Summary:Process Control Modeling and Analysis of a Binary Packed Distillation Column using structured packings are studied through this thesis. The simulation of the steady state behavior used a new approach of employing mass and heat fluxes in determining the liquid and vapor compositions and flowrates within the column. This simulation has been extended in determining the behavior of these compositions towards disturbances due to changes in feed rate and composition. The simulation is also capable of determining the range of values of reflux ratio or wall heat flux to return the disturbed column into its steady state values.To introduce process control into the system, the steady state simulation of the packed binary distillation column has been modified to a dynamic simulation. The results from the steady state simulation when disturbance has been applied were similar to the results generated from the dynamic simulation.Finally, control has been applied by testing the dynamic simulation to different control modes. Proportional-Integral and Proportional-Integral-Derivative control modes have been found sufficient in maintaining the desired product to its set point because it returns the distillate composition to its set point when disturbance in feed rate and composition have been applied while keeping the system in its stable condition.

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