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**Harvard**

Olesen, V. och Breitholtz, C. (2007) *Closed loop model reduction applied to a tank reactor process*. Göteborg : Chalmers University of Technology

** BibTeX **

@techreport{

Olesen2007,

author={Olesen, Veronica and Breitholtz, Claes},

title={Closed loop model reduction applied to a tank reactor process},

abstract={The subject of this article is the direct assessment of model simplification from a feedback control perspective. Normally, dynamic systems are simplified dimensionally and structurally from an open loop perspective. In spite of the intentions, the resulting models often tend to be unnecessary complex for controller design and synthesis anyway. Here, a four step method is proposed that incorporates a feedback controller, and makes use of the closed loop sensitivity functions to indicate significant impact on the closed loop behaviour from a performed model simplification. The method is applied to a first order reaction in an ideally stirred tank reactor with a cooling system. For this system a general detailed model is derived. The model includes temperature dependent parameters such as specific heats and densities. This reference model is locally unstable in most operating points, making open loop simplification impractical. The proposed closed loop simplification method makes it possible to evaluate which approximations of the system that can be justified.
},

publisher={Chalmers University of Technology},

place={Göteborg},

year={2007},

keywords={Mathematical modelling, Model reduction, Process control, Chemical reactors, Ideally Stirred Tank Reactor, Sensitivity Function },

}

** RefWorks **

RT Report

SR Print

ID 64829

A1 Olesen, Veronica

A1 Breitholtz, Claes

T1 Closed loop model reduction applied to a tank reactor process

YR 2007

AB The subject of this article is the direct assessment of model simplification from a feedback control perspective. Normally, dynamic systems are simplified dimensionally and structurally from an open loop perspective. In spite of the intentions, the resulting models often tend to be unnecessary complex for controller design and synthesis anyway. Here, a four step method is proposed that incorporates a feedback controller, and makes use of the closed loop sensitivity functions to indicate significant impact on the closed loop behaviour from a performed model simplification. The method is applied to a first order reaction in an ideally stirred tank reactor with a cooling system. For this system a general detailed model is derived. The model includes temperature dependent parameters such as specific heats and densities. This reference model is locally unstable in most operating points, making open loop simplification impractical. The proposed closed loop simplification method makes it possible to evaluate which approximations of the system that can be justified.

PB Chalmers University of Technology

LA eng

OL 30