On dealing with measured disturbances in the modifier adaptation method for real-time optimization

On dealing with measured disturbances in the modifier adaptation method for real-time optimization

•Changes in disturbances can compromise the KKT matching in modifier adaptation method.•Including the disturbances in gradient estimation allows tracking the NOC of a process.•Implementation of modifier adaptation in laboratory using real data of disturbances.•Columnar flotation can increase its eco...

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Bibliographic Details
Published in:Computers & chemical engineering Vol. 128; pp. 141 - 163
Main Authors: Navia, Daniel, Puen, Antonio, Quintanilla, Paulina, Briceño, Luis, Bergh, Luis
Format: Journal Article
Language:English
Published: Elsevier Ltd 02-09-2019
Subjects:
Disturbances
Flotation column
Modifier adaptation
Process optimization
Real-Time optimization
Process optimization
Real-Time optimization
Flotation column
Modifier adaptation
Disturbances
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Summary:•Changes in disturbances can compromise the KKT matching in modifier adaptation method.•Including the disturbances in gradient estimation allows tracking the NOC of a process.•Implementation of modifier adaptation in laboratory using real data of disturbances.•Columnar flotation can increase its economic performance. In this work, we propose the inclusion of the available information of measured or estimated disturbances in the modifier adaptation methodology for real-time optimization (RTO). The idea is to extend the applicability of this technique to processes wherein the disturbances affect the quantities involved in the necessary optimality conditions of the process. To do so, we include the estimation of process gradients with respect to both the decision variables and disturbances in the methodology. This approach was performed in a laboratory-scale flotation column, where the effects of changes in the feed characteristics on the economic performance of the process were analyzed. The influence of the availability of the disturbance information was also analyzed, considering immediate and delayed availability. In the latter case, the auto regressive integrated moving average model (ARIMA) was used as an estimator in each RTO iteration. The results show that the inclusion of the available disturbance information enables tracking of the optimum of the process under continuously changing feed conditions.
ISSN:0098-1354
1873-4375
DOI:10.1016/j.compchemeng.2019.06.004