Control of integrated process networks-A multi-time scale perspective

Michael Baldea; Prodromos Daoutidis

doi:10.1016/j.compchemeng.2006.05.017

Control of integrated process networks-A multi-time scale perspective

Michael Baldea, Prodromos Daoutidis

Chemical Engineering and Materials Science

Research output: Contribution to journal › Article › peer-review

44 Scopus citations

Abstract

In this work, we consider a generic class of process networks that feature large material recycle streams and in which impurities are present, and are removed by a small purge stream. We show that such networks exhibit a dynamic behavior featuring three time scales. Employing a nested application of singular perturbation arguments, we propose a method for deriving non-linear, non-stiff, reduced order models for the dynamics in each time scale. Subsequently, we propose a hierarchical controller design framework that takes advantage of the identified time scale multiplicity. The developed concepts are exemplified through a case study on the dynamics and control of a reactor-single-stage separator network core, and illustrative numerical simulation results are provided.

Original language	English (US)
Pages (from-to)	426-444
Number of pages	19
Journal	Computers and Chemical Engineering
Volume	31
Issue number	5-6
DOIs	https://doi.org/10.1016/j.compchemeng.2006.05.017
State	Published - May 1 2007

Keywords

Model reduction
Plant-wide control
Singular perturbations

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AB - In this work, we consider a generic class of process networks that feature large material recycle streams and in which impurities are present, and are removed by a small purge stream. We show that such networks exhibit a dynamic behavior featuring three time scales. Employing a nested application of singular perturbation arguments, we propose a method for deriving non-linear, non-stiff, reduced order models for the dynamics in each time scale. Subsequently, we propose a hierarchical controller design framework that takes advantage of the identified time scale multiplicity. The developed concepts are exemplified through a case study on the dynamics and control of a reactor-single-stage separator network core, and illustrative numerical simulation results are provided.

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