Nonlinear frequency response analysis of forced periodic operation of non-isothermal CSTR using single input modulations. Part I: Modulation of inlet concentration or flow-rate

Periodic operations of a non-isothermal CSTR with n-th order reaction, subject to a single input modulation, is analysed using the nonlinear frequency response (NFR) method, introduced in our previous publications. The method is based on deriving the asymmetrical second order frequency response func...

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Bibliographic Details
Published in:Chemical engineering science 2014-09, Vol.117, p.71-84
Main Authors: Nikolić, Daliborka, Seidel-Morgenstern, Andreas, Petkovska, Menka
Format: Article
Language:English
Subjects:
Chemical reactors
Mathematical modelling
Non-isothermal CSTR
Nonlinear dynamics
Nonlinear frequency response method
Simulation
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Summary:Periodic operations of a non-isothermal CSTR with n-th order reaction, subject to a single input modulation, is analysed using the nonlinear frequency response (NFR) method, introduced in our previous publications. The method is based on deriving the asymmetrical second order frequency response function (FRF) and analysing its sign. In Part I of this paper, periodic operation with modulation of the inlet concentration or flow-rate of the reaction stream is analysed. As a result, conditions regarding the reaction order, process parameters and frequency of the input modulation are identified that need to be fulfilled in order to achieve process improvement through the periodic operation compared to conventional steady state operation. The method is applied for a numerical example from literature and the results obtained by the NFR method are compared with the results of numerical simulation. Good agreement is obtained, except for imposed forcing frequencies close to the resonant frequency and high forcing amplitudes. •Evaluating single input periodic operations of non-isothermal CSTR by NFR method.•Analysis for the non-isothermal, homogeneous, simple n-th order reaction in a CSTR.•Derivation of asymmetrical second order FR functions and sign analysis.•Conditions for process improvement by modulating inlet concentration or flow-rate.•Comparison between results obtained by NFR method and by numerical simulations.
ISSN:0009-2509
1873-4405
DOI:10.1016/j.ces.2014.06.013