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**Harvard**

Olesen, V., Breitholtz, C. och Wik, T. (2007) *Quantitative assessment in frequency domain of reactor model simplification*. Göteborg : Chalmers University of Technology (R - Department of Signals and Systems, Chalmers University of Technology, nr: R020/2007).

** BibTeX **

@techreport{

Olesen2007,

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

title={Quantitative assessment in frequency domain of reactor model simplification},

abstract={The subject of this report is to investigate when and how different approximations can be applied to a continuous stirred tank reactor system. A complex first principles model of a first order exothermic reaction, taking place in the reactor, is used as a reference model. A large number of different sets of substances, described by different physical properties, are tested. For each set of substances, a number of approximations leading to model simplifications are tested in closed loop. The results of the investigation are properties to be fulfilled for each approximation to be appropriate. The resulting simplified model equations are also explicitly presented. },

publisher={Chalmers University of Technology},

place={Göteborg},

year={2007},

series={R - Department of Signals and Systems, Chalmers University of Technology, no: R020/2007},

}

** RefWorks **

RT Report

SR Print

ID 65338

A1 Olesen, Veronica

A1 Breitholtz, Claes

A1 Wik, Torsten

T1 Quantitative assessment in frequency domain of reactor model simplification

YR 2007

AB The subject of this report is to investigate when and how different approximations can be applied to a continuous stirred tank reactor system. A complex first principles model of a first order exothermic reaction, taking place in the reactor, is used as a reference model. A large number of different sets of substances, described by different physical properties, are tested. For each set of substances, a number of approximations leading to model simplifications are tested in closed loop. The results of the investigation are properties to be fulfilled for each approximation to be appropriate. The resulting simplified model equations are also explicitly presented.

PB Chalmers University of Technology

T3 R - Department of Signals and Systems, Chalmers University of Technology, no: R020/2007

LA eng

OL 30