Design and Application of a Linear Algebra Based Controller from a Reduced-Order Model for Regulation and Tracking of Chemical Processes under Uncertainties

M. Fabiana Sardella; M. Emanuel Serrano; Oscar Camacho; Gustavo J.E. Scaglia

doi:10.1021/acs.iecr.9b01257

Design and Application of a Linear Algebra Based Controller from a Reduced-Order Model for Regulation and Tracking of Chemical Processes under Uncertainties

M. Fabiana Sardella^*
, M. Emanuel Serrano
, Oscar Camacho
, Gustavo J.E. Scaglia

^*Corresponding author for this work

Universidad Nacional de San Juan
Escuela Politecnica Nacional

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

29 Scopus citations

Abstract

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.

Original language	English
Pages (from-to)	15222-15231
Number of pages	10
Journal	Industrial and Engineering Chemistry Research
Volume	58
Issue number	33
DOIs	https://doi.org/10.1021/acs.iecr.9b01257
State	Published - 21 Aug 2019
Externally published	Yes

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title = "Design and Application of a Linear Algebra Based Controller from a Reduced-Order Model for Regulation and Tracking of Chemical Processes under Uncertainties",

abstract = "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.",

author = "Sardella, \{M. Fabiana\} and Serrano, \{M. Emanuel\} and Oscar Camacho and Scaglia, \{Gustavo J.E.\}",

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Design and Application of a Linear Algebra Based Controller from a Reduced-Order Model for Regulation and Tracking of Chemical Processes under Uncertainties. / Sardella, M. Fabiana; Serrano, M. Emanuel; Camacho, Oscar et al.
In: Industrial and Engineering Chemistry Research, Vol. 58, No. 33, 21.08.2019, p. 15222-15231.

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

TY - JOUR

T1 - Design and Application of a Linear Algebra Based Controller from a Reduced-Order Model for Regulation and Tracking of Chemical Processes under Uncertainties

AU - Sardella, M. Fabiana

AU - Serrano, M. Emanuel

AU - Camacho, Oscar

AU - Scaglia, Gustavo J.E.

PY - 2019/8/21

Y1 - 2019/8/21

N2 - 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.

AB - 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.

UR - https://www.scopus.com/pages/publications/85071274892

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DO - 10.1021/acs.iecr.9b01257

M3 - Artículo

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JO - Industrial and Engineering Chemistry Research

JF - Industrial and Engineering Chemistry Research

IS - 33

ER -

Design and Application of a Linear Algebra Based Controller from a Reduced-Order Model for Regulation and Tracking of Chemical Processes under Uncertainties

Abstract

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