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Robust optimization of stiff delayed systems: application to a fluid catalytic cracking unit

Otten-Weinschenker, Jonas / Mönnigmann, Martin

We apply a robust steady state optimization method for stiff delay differential equations to the economic optimization of a fluidized catalytic cracking unit. Stiff systems of differential equations appear in this case due to the different time scales in the gas and fluid phase. Delays result from the catalyst hold-ups in the standpipes connecting riser and regenerator. We show that the proposed robust optimization method can cope with stiffness and delays. Moreover, the proposed method is capable of simultaneously optimizing the process parameters and tuning controller parameters.

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Robust optimization of stiff delayed systems: application to a fluid catalytic cracking unit

Otten-Weinschenker, Jonas / Mönnigmann, Martin

We apply a robust steady state optimization method for stiff delay differential equations to the economic optimization of a fluidized catalytic cracking unit. Stiff systems of differential equations appear in this case due to the different time scales in the gas and fluid phase. Delays result from the catalyst hold-ups in the standpipes connecting riser and regenerator. We show that the proposed robust optimization method can cope with stiffness and delays. Moreover, the proposed method is capable of simultaneously optimizing the process parameters and tuning controller parameters.

Robust optimization of stiff delayed systems: application to a fluid catalytic cracking unit

Otten-Weinschenker, Jonas / Mönnigmann, Martin

We apply a robust steady state optimization method for stiff delay differential equations to the economic optimization of a fluidized catalytic cracking unit. Stiff systems of differential equations appear in this case due to the different time scales in the gas and fluid phase. Delays result from the catalyst hold-ups in the standpipes connecting riser and regenerator. We show that the proposed robust optimization method can cope with stiffness and delays. Moreover, the proposed method is capable of simultaneously optimizing the process parameters and tuning controller parameters.

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Titel:

Robust optimization of stiff delayed systems: application to a fluid catalytic cracking unit

Weitere Titelangaben:

Optim Eng

Beteiligte:

Otten-Weinschenker, Jonas (Autor:in) / Mönnigmann, Martin (Autor:in)

Erschienen in:

Optimization and Engineering ; 23 ; 2025-2050

Erscheinungsdatum:

01.12.2022

Format / Umfang:

26 pages

ISSN:

1573-2924 , 1389-4420

DOI:

https://doi.org/10.1007/s11081-021-09654-8

Medientyp:

Aufsatz (Zeitschrift)

Format:

Elektronische Ressource

Sprache:

Englisch

Schlagwörter:

Mathematics , Optimization , Engineering, general , Systems Theory, Control , Environmental Management , Operations Research/Decision Theory , Financial Engineering , Mathematics and Statistics

Lizenzbestimmungen:

http://creativecommons.org/licenses/by/4.0/

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