Bioreactor shape optimisation. Modeling, simulation, and shape optimization of a simple bioreactor for water treatment

Bello Rivas, Juan Manuel; Harmand, Jerome; Ivorra, Benjamín Pierre Paul; Ramos Del Olmo, Ángel Manuel

Bioreactor shape optimisation. Modeling, simulation, and shape optimization of a simple bioreactor for water treatment

dc.book.title	Colloques Sciences et Techniques de l'Information et de la Communication pour l'Environnement: Saint Etienne, 11, 12 et 13 mai 2011
dc.contributor.author	Bello Rivas, Juan Manuel
dc.contributor.author	Harmand, Jerome
dc.contributor.author	Ivorra, Benjamín Pierre Paul
dc.contributor.author	Ramos Del Olmo, Ángel Manuel
dc.contributor.editor	Ragot, José
dc.contributor.editor	Batton-Hubert, Mireille
dc.contributor.editor	Breuil, Florent
dc.date.accessioned	2023-06-20T05:46:40Z
dc.date.available	2023-06-20T05:46:40Z
dc.date.issued	2011
dc.description.abstract	In this paper, we focus on the modeling, simulation and shape optimization of a dispersive bio-reactor in which a substrate is degraded by a microbial ecosystem in an non homogeneous environment. Two different modeling approaches are used in order to obtain a low computational model to quickly evaluate the behavior of our bio-reactor. The first one is based on coupled spatial and time dependent EDPs. The second one, obtained by optimization, is based on two interconnected systems of ODEs with coefficient calibrated using the first PDE model. Preliminary results assuming a Monod kinetics are presented.
dc.description.abstract	Dans cet article, nous étudions la conception optimale d'un réacteur biologique dans lequel un substrat est dégradé par un écosystème microbien dans un environnement non homogène. Dans le but d'obtenir un modèle entrée-sortie simple sous la forme d'un système d'EDOs mais prenant en compte le caractère non homogène du réacteur, un premier modèle de dimension infini est approximé par une interconnection de chemostats. Les résultats préliminaires en considérant une cinétique de Monod sont présentés.
dc.description.department	Depto. de Análisis Matemático y Matemática Aplicada
dc.description.faculty	Fac. de Ciencias Matemáticas
dc.description.refereed	TRUE
dc.description.status	pub
dc.eprint.id	https://eprints.ucm.es/id/eprint/29108
dc.identifier.isbn	978-2-911256-46-2
dc.identifier.officialurl	http://www.emse.fr/~batton/Presentations/STIC2011.html
dc.identifier.relatedurl	https://hal.inria.fr/hal-00858579
dc.identifier.uri	https://hdl.handle.net/20.500.14352/45551
dc.language.iso	eng
dc.page.final	141
dc.page.initial	125
dc.page.total	344
dc.publication.place	Paris
dc.publisher	Transvalor; Presses des Mines
dc.relation.ispartofseries	Sciences de la terre et de l'environnement
dc.rights.accessRights	restricted access
dc.subject.cdu	004.42:575.8
dc.subject.cdu	519.863
dc.subject.keyword	Dispersive bioreactors
dc.subject.keyword	Shape optimization
dc.subject.keyword	Optimal design
dc.subject.keyword	Global optimization
dc.subject.keyword	Genetic algorithms.
dc.subject.ucm	Hidrología
dc.subject.ucm	Programación de ordenadores (Informática)
dc.subject.ucm	Investigación operativa (Matemáticas)
dc.subject.unesco	2508 Hidrología
dc.subject.unesco	1203.23 Lenguajes de Programación
dc.subject.unesco	1207 Investigación Operativa
dc.title	Bioreactor shape optimisation. Modeling, simulation, and shape optimization of a simple bioreactor for water treatment
dc.type	book part
dcterms.references	L. Debiane, B. Ivorra, B. Mohammadi, F. Nicoud, A. Ern, T. Poinsot, H. Pitsch (2006) A low-complexity global optimization algorithm for temperature and pollution control in flames with complex chemistry. International Journal of Computational Fluid Dynamics, 20(2):93–98. L. Dumas, V. Herbert, F. Muyl. Hybrid method for aerodynamic shape optimization in automotive industry. Computers and Fluids, 33(5):849–858, 2004. D. Goldberg. Genetic algorithms in search, optimization and machine learning. Addison Wesley, 1989. Grivet J.-P., Nonlinear Population Dynamics in the Chemostat, Computing in Science and Engineering, 3, 2001, 48-55, IEEE Computer Society Harmand J., Rapaport A. Trofino A., Optimal design of interconnected bioreactors: New results , AIChE J., 49, 2003, 1433–1450, Wiley Subscription Services, Inc., A Wiley Company. Harmand J. Dochain D., The optimal design of two interconnected (bio)chemical reactors revisited , Computers & Chemical Engineering, 30, 1, 2005, 70 – 82. Hill G. A. Robinson C. W., Minimum tank volumes for CFST bioreactors in series , Can. J. Chem. Eng., 67, 1989, 818–824, Wiley Subscription Services, Inc., A Wiley Company. J. A. Infante, B. Ivorra, A.M. Ramos del Olmo, J. M. Rey. On the Modeling and Simulation of High Pressure Processes and Inactivation of Enzymes in Food Engineering. Mathematical Models and Methods in Applied Sciences, 19(12), 2203–2229 (2009). D. Isebe, P. Azerad, F. Bouchette, B. Ivorra, B. Mohammadi.Shape Optimization of Geotextile Tubes for Sandy Beach Protection. International Journal of Numerical Method in Engineering, 74(8): 1262–1277, 2008. B. Ivorra. Optimisation globale semi-deterministe et applications industrielles. ANRT-Grenoble. Reference: 06/MON2/0061, 2006. Ivorra B., Hertzog D. E., Mohammadi B. Santiago J. G., Semi-deterministic and genetic algorithms for global optimization of microfluidic protein-folding devices. , Int. J. Numer. Methods Eng., 66, 2, 2006, 319–333. B. Ivorra, B. Mohammadi, L. Dumas, O. Durand, P. Redont, Semi–deterministic vs. genetic algorithms for global optimization of multichannel optical filters, International Journal of Computational Science for Engineering, 2(3), 170–178 (2006). Ivorra B., A.M. Ramos, and B.Mohammadi. Semideterministic global optimization method: Application to a control problem of the burgers equation. Journal of Optimization Theory and Applications, 135(3):549-561, 2007. B. Ivorra, B. Mohammadi, A.M. Ramos, Optimization strategies in credit portfolio management. Journal Of Global Optimization, 43(2):415–427 (2009). Luyben K. C. A. M. Tramper J., Optimal design for continuous stirred tank reactors in series using Michaelis-Menten kinetics, Biotechnol. Bioeng., 24, 1982, 1217–1220, Wiley Subscription Services, Inc., A Wiley Company. Nelson M. Sidhu H., Evaluating the performance of a cascade of two bioreactors, Chemical Engineering Science, 61, 10, 2006, 3159–3166.
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relation.isAuthorOfPublication.latestForDiscovery	6d5e1204-9b8a-40f4-b149-02d32e0bbed2

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