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Systematic methodology for bioprocess model identification based on generalized kinetic functions

Paper ID Volume ID Publish Year Pages File Format Full-Text
2893 141 2015 9 PDF Available
Title
Systematic methodology for bioprocess model identification based on generalized kinetic functions
Abstract

•This study presents a new systematic methodology for kinetic model identification.•An existing model and its associated experimental field are used as case study.•This approach allows a computation time reduction compared to usual model identification.•The identification results underline the efficiency of the proposed procedure.

This study presents a new systematic methodology for kinetic model identification on the basis of available experimental measurements. In a first step, a general kinetic model [Syst. Anal. Model. Simul. 35 (1999) 87–113] is identified, which allows, on the one hand, capturing the activation and/or inhibition effects of any component involved in the reaction and, on the other hand, identifying all the parameters based on a simple linear regression. This circumvents the tedious problems of choosing the kinetic structure and providing initial parameter values on a trial-and-error basis. In a second step, the general kinetic model can be easily transformed into the general extended Monod formalism. The global identification of the nonlinear model is finally performed based on the results of the previous steps. The model and the experimental field (fed-batch culture experiments using hybridoma cell line HB-58) presented in Amribt et al. [Biochem. Eng. J. 70 (2013) 196–209] are used as case study to underline the advantages of this strategy for the global identification of nonlinear models. The proposed systematic procedure leads to the identification of a model structure with similar complexity but whose parameter values present lower variation coefficients. The identified model successfully reproduces the dynamics associated with substrates consumption (glucose and glutamine), metabolites production (lactate and ammonia) and cell growth.

Keywords
Dynamic modeling; Fed-batch culture; Hybridoma cultures; Kinetic parameters; Production kinetics; Substrate inhibition
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Systematic methodology for bioprocess model identification based on generalized kinetic functions
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Publisher
Database: Elsevier - ScienceDirect
Journal: Biochemical Engineering Journal - Volume 100, 15 August 2015, Pages 41–49
Authors
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Subjects
Physical Sciences and Engineering Chemical Engineering Bioengineering
Get Full-Text Now
Don't Miss Today's Special Offer
Price was $35.95
You save - $31
Price after discount Only $4.95
100% Money Back Guarantee
Full-text PDF Download
Online Support
Any Questions? feel free to contact us