Hybrid modeling of counterion mass transfer in a membrane-supported biofilm reactor

► Counterion transport in a membrane-supported biofilm reactor was modeled. ► Model was based on combining mechanistic and multivariate techniques. ► Two hybrid modeling strategies were tested: cooperative and competitive mixture-of-experts (MOE). ► MOE structure proved to be better: combines model...

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Published in	Biochemical engineering journal Vol. 62; pp. 22 - 33
Main Authors	Ricardo, Ana R., Oliveira, Rui, Velizarov, Svetlozar, Reis, Maria A.M., Crespo, João G.
Format	Journal Article
Language	English
Published	Amsterdam Elsevier B.V 15.03.2012 Elsevier
Subjects	Biodegradation biofilm Biofilms Biological and medical sciences Bioreactors Biotechnology drinking water Fundamental and applied biological sciences. Psychology ion exchange Ion exchange membrane mass transfer mechanistic models Membrane bioreactors Methods. Procedures. Technologies Modeling multivariate analysis nitrates perchlorates prediction statistical models Various methods and equipments Water treatment Biodegradation Water treatment Ion exchange membrane Biofilms Membrane bioreactors Modeling Membrane reactor Bioreactor Support Biofilm Hybrid Mass transfer
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ISSN	1369-703X 1873-295X
DOI	10.1016/j.bej.2011.12.010

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Abstract	► Counterion transport in a membrane-supported biofilm reactor was modeled. ► Model was based on combining mechanistic and multivariate techniques. ► Two hybrid modeling strategies were tested: cooperative and competitive mixture-of-experts (MOE). ► MOE structure proved to be better: combines model elements in a mediated network. ► MOE characterized the bioprocess without the need of a complex kinetic model. This paper presents a hybrid mechanistic/statistical model for predicting counterion fluxes across an ion-exchange membrane in a membrane-supported biofilm reactor. The model was calibrated with operating data for the removal of nitrate and perchlorate from a simulated contaminated drinking water stream. Two different modeling strategies were tested: a cooperative parallel hybrid model and a competitive mixture-of-experts (MOE) structure both joining a mechanistic Donnan-dialytic transport model and a multivariate projection to latent structures (PLS) model. The MOE structure proved to be a better predictive tool since it combines the two hybrid model elements in a mediated network. The PLS model was used to identify the process variables that are responsible for the mechanistic model inaccuracy. The results showed that biocompartment physicochemical data need to be considered in the modeling of the transport of counterions across the membrane, especially in situations in which the target counterion (e.g., perchlorate or nitrate) is metabolically reduced in the biocompartment. By using this strategy, the complex biofilm contribution to the transport was accounted for, without the need of developing mechanistic models built on simplified and/or inaccurate assumptions.
AbstractList	This paper presents a hybrid mechanistic/statistical model for predicting counterion fluxes across an ion-exchange membrane in a membrane-supported biofilm reactor. The model was calibrated with operating data for the removal of nitrate and perchlorate from a simulated contaminated drinking water stream. Two different modeling strategies were tested: a cooperative parallel hybrid model and a competitive mixture-of-experts (MOE) structure both joining a mechanistic Donnan-dialytic transport model and a multivariate projection to latent structures (PLS) model. The MOE structure proved to be a better predictive tool since it combines the two hybrid model elements in a mediated network. The PLS model was used to identify the process variables that are responsible for the mechanistic model inaccuracy. The results showed that biocompartment physicochemical data need to be considered in the modeling of the transport of counterions across the membrane, especially in situations in which the target counterion (e.g., perchlorate or nitrate) is metabolically reduced in the biocompartment. By using this strategy, the complex biofilm contribution to the transport was accounted for, without the need of developing mechanistic models built on simplified and/or inaccurate assumptions. ► Counterion transport in a membrane-supported biofilm reactor was modeled. ► Model was based on combining mechanistic and multivariate techniques. ► Two hybrid modeling strategies were tested: cooperative and competitive mixture-of-experts (MOE). ► MOE structure proved to be better: combines model elements in a mediated network. ► MOE characterized the bioprocess without the need of a complex kinetic model. This paper presents a hybrid mechanistic/statistical model for predicting counterion fluxes across an ion-exchange membrane in a membrane-supported biofilm reactor. The model was calibrated with operating data for the removal of nitrate and perchlorate from a simulated contaminated drinking water stream. Two different modeling strategies were tested: a cooperative parallel hybrid model and a competitive mixture-of-experts (MOE) structure both joining a mechanistic Donnan-dialytic transport model and a multivariate projection to latent structures (PLS) model. The MOE structure proved to be a better predictive tool since it combines the two hybrid model elements in a mediated network. The PLS model was used to identify the process variables that are responsible for the mechanistic model inaccuracy. The results showed that biocompartment physicochemical data need to be considered in the modeling of the transport of counterions across the membrane, especially in situations in which the target counterion (e.g., perchlorate or nitrate) is metabolically reduced in the biocompartment. By using this strategy, the complex biofilm contribution to the transport was accounted for, without the need of developing mechanistic models built on simplified and/or inaccurate assumptions.
Author	Crespo, João G. Ricardo, Ana R. Reis, Maria A.M. Velizarov, Svetlozar Oliveira, Rui
Author_xml	– sequence: 1 givenname: Ana R. surname: Ricardo fullname: Ricardo, Ana R. – sequence: 2 givenname: Rui surname: Oliveira fullname: Oliveira, Rui – sequence: 3 givenname: Svetlozar surname: Velizarov fullname: Velizarov, Svetlozar – sequence: 4 givenname: Maria A.M. surname: Reis fullname: Reis, Maria A.M. – sequence: 5 givenname: João G. surname: Crespo fullname: Crespo, João G. email: jgc@dq.fct.unl.pt
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Keywords	Biodegradation Water treatment Ion exchange membrane Biofilms Membrane bioreactors Modeling Membrane reactor Bioreactor Support Biofilm Hybrid Mass transfer
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Snippet	► Counterion transport in a membrane-supported biofilm reactor was modeled. ► Model was based on combining mechanistic and multivariate techniques. ► Two... This paper presents a hybrid mechanistic/statistical model for predicting counterion fluxes across an ion-exchange membrane in a membrane-supported biofilm...
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SubjectTerms	Biodegradation biofilm Biofilms Biological and medical sciences Bioreactors Biotechnology drinking water Fundamental and applied biological sciences. Psychology ion exchange Ion exchange membrane mass transfer mechanistic models Membrane bioreactors Methods. Procedures. Technologies Modeling multivariate analysis nitrates perchlorates prediction statistical models Various methods and equipments Water treatment
Title	Hybrid modeling of counterion mass transfer in a membrane-supported biofilm reactor
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