Uniformly bounded error estimator for bioprocess with unstructured cell growth models

Ricardo Aguilar-López; Juan Mata-Machuca; Rafael Martinez-Guerra; Pablo Antonio López-Pérez

doi:10.2202/1934-2659.1401

Uniformly bounded error estimator for bioprocess with unstructured cell growth models

Ricardo Aguilar-López, Juan Mata-Machuca, Rafael Martinez-Guerra, Pablo Antonio López-Pérez

Producción científica: Contribución a una revista › Artículo › revisión exhaustiva

4 Citas (Scopus)

Resumen

In this paper, we proposed a uniformly bounded error estimator for a common class of bioreactor models. The biomass and other products are estimated by means of substrate concentration measurements employing the characteristics of the unstructured cell growth models, which are linearly dependent. The estimation methodology is based on a suitable change of variable which allows generating artificial variables to infer the remaining mass concentrations constructing a differential-algebraic structure. The proposed methodology is applied to a class of Monod unstructured kinetic model with success. Some remarks about the convergence characteristics of the proposed estimator are given and numerical simulations show its satisfactory performance.

Idioma original	Inglés
Número de artículo	9
Publicación	Chemical Product and Process Modeling
Volumen	4
N.º	5
DOI	https://doi.org/10.2202/1934-2659.1401
Estado	Publicada - 14 ago. 2009
Publicado de forma externa	Sí

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title = "Uniformly bounded error estimator for bioprocess with unstructured cell growth models",

abstract = "In this paper, we proposed a uniformly bounded error estimator for a common class of bioreactor models. The biomass and other products are estimated by means of substrate concentration measurements employing the characteristics of the unstructured cell growth models, which are linearly dependent. The estimation methodology is based on a suitable change of variable which allows generating artificial variables to infer the remaining mass concentrations constructing a differential-algebraic structure. The proposed methodology is applied to a class of Monod unstructured kinetic model with success. Some remarks about the convergence characteristics of the proposed estimator are given and numerical simulations show its satisfactory performance.",

keywords = "Biomass, Differential-algebraic estimator, Products estimation, Unstructured kinetic models",

author = "Ricardo Aguilar-L{\'o}pez and Juan Mata-Machuca and Rafael Martinez-Guerra and L{\'o}pez-P{\'e}rez, {Pablo Antonio}",

note = "Funding Information: KEYWORDS: differential-algebraic estimator, unstructured kinetic models, biomass, products estimation Author Notes: P.A. L{\'o}pez-P{\'e}rez and J. Mata-Machuca thank the support of CONACyT for a postgraduate scholarships.",

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AU - Aguilar-López, Ricardo

AU - Mata-Machuca, Juan

AU - Martinez-Guerra, Rafael

AU - López-Pérez, Pablo Antonio

N1 - Funding Information: KEYWORDS: differential-algebraic estimator, unstructured kinetic models, biomass, products estimation Author Notes: P.A. López-Pérez and J. Mata-Machuca thank the support of CONACyT for a postgraduate scholarships.

PY - 2009/8/14

Y1 - 2009/8/14

N2 - In this paper, we proposed a uniformly bounded error estimator for a common class of bioreactor models. The biomass and other products are estimated by means of substrate concentration measurements employing the characteristics of the unstructured cell growth models, which are linearly dependent. The estimation methodology is based on a suitable change of variable which allows generating artificial variables to infer the remaining mass concentrations constructing a differential-algebraic structure. The proposed methodology is applied to a class of Monod unstructured kinetic model with success. Some remarks about the convergence characteristics of the proposed estimator are given and numerical simulations show its satisfactory performance.

AB - In this paper, we proposed a uniformly bounded error estimator for a common class of bioreactor models. The biomass and other products are estimated by means of substrate concentration measurements employing the characteristics of the unstructured cell growth models, which are linearly dependent. The estimation methodology is based on a suitable change of variable which allows generating artificial variables to infer the remaining mass concentrations constructing a differential-algebraic structure. The proposed methodology is applied to a class of Monod unstructured kinetic model with success. Some remarks about the convergence characteristics of the proposed estimator are given and numerical simulations show its satisfactory performance.

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KW - Products estimation

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DO - 10.2202/1934-2659.1401

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JO - Chemical Product and Process Modeling

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Uniformly bounded error estimator for bioprocess with unstructured cell growth models

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