Minimizing losses in bio-electrochemical systems: the road to applications
Bio-electrochemical systems (BESs) enable microbial catalysis of electrochemical reactions. Plain electrical power production combined with wastewater treatment by microbial fuel cells (MFCs) has been the primary application purpose for BESs. However, large-scale power production and a high chemical...
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| Published in | Applied microbiology and biotechnology Vol. 79; no. 6; pp. 901 - 913 |
|---|---|
| Main Authors | , , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
Berlin/Heidelberg
Berlin/Heidelberg : Springer-Verlag
01.07.2008
Springer Berlin Heidelberg Springer Springer Nature B.V |
| Subjects | |
| Online Access | Get full text |
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| Abstract | Bio-electrochemical systems (BESs) enable microbial catalysis of electrochemical reactions. Plain electrical power production combined with wastewater treatment by microbial fuel cells (MFCs) has been the primary application purpose for BESs. However, large-scale power production and a high chemical oxygen demand conversion rates must be achieved at a benchmark cost to make MFCs economical competitive in this context. Recently, a number of valuable oxidation or reduction reactions demonstrating the versatility of BESs have been described. Indeed, BESs can produce hydrogen, bring about denitrification, or reductive dehalogenation. Moreover, BESs also appear to be promising in the field of online biosensors. To effectively apply BESs in practice, both biological and electrochemical losses need to be further minimized. At present, the costs of reactor materials have to be decreased, and the volumetric biocatalyst activity in the systems has to be increased substantially. Furthermore, both the ohmic cell resistance and the pH gradients need to be minimized. In this review, these losses and constraints are discussed from an electrochemical viewpoint. Finally, an overview of potential applications and innovative research lines is given for BESs. |
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| AbstractList | Bio-electrochemical systems (BESs) enable microbial catalysis of electrochemical reactions. Plain electrical power production combined with wastewater treatment by microbial fuel cells (MFCs) has been the primary application purpose for BESs. However, large-scale power production and a high chemical oxygen demand conversion rates must be achieved at a benchmark cost to make MFCs economical competitive in this context. Recently, a number of valuable oxidation or reduction reactions demonstrating the versatility of BESs have been described. Indeed, BESs can produce hydrogen, bring about denitrification, or reductive dehalogenation. Moreover, BESs also appear to be promising in the field of online biosensors. To effectively apply BESs in practice, both biological and electrochemical losses need to be further minimized. At present, the costs of reactor materials have to be decreased, and the volumetric biocatalyst activity in the systems has to be increased substantially. Furthermore, both the ohmic cell resistance and the pH gradients need to be minimized. In this review, these losses and constraints are discussed from an electrochemical viewpoint. Finally, an overview of potential applications and innovative research lines is given for BESs. Bio-electrochemical systems (BESs) enable microbial catalysis of electrochemical reactions. Plain electrical power production combined with wastewater treatment by microbial fuel cells (MFCs) has been the primary application purpose for BESs. However, large-scale power production and a high chemical oxygen demand conversion rates must be achieved at a benchmark cost to make MFCs economical competitive in this context. Recently, a number of valuable oxidation or reduction reactions demonstrating the versatility of BESs have been described. Indeed, BESs can produce hydrogen, bring about denitrification, or reductive dehalogenation. Moreover, BESs also appear to be promising in the field of online biosensors. To effectively apply BESs in practice, both biological and electrochemical losses need to be further minimized. At present, the costs of reactor materials have to be decreased, and the volumetric biocatalyst activity in the systems has to be increased substantially. Furthermore, both the ohmic cell resistance and the pH gradients need to be minimized. In this review, these losses and constraints are discussed from an electrochemical viewpoint. Finally, an overview of potential applications and innovative research lines is given for BESs. [PUBLICATION ABSTRACT] |
| Author | Verstraete, Willy Carballa, Marta Aelterman, Peter De Schamphelaire, Liesje Clauwaert, Peter Pham, The Hai Rabaey, Korneel |
| Author_xml | – sequence: 1 fullname: Clauwaert, Peter – sequence: 2 fullname: Aelterman, Peter – sequence: 3 fullname: Pham, The Hai – sequence: 4 fullname: De Schamphelaire, Liesje – sequence: 5 fullname: Carballa, Marta – sequence: 6 fullname: Rabaey, Korneel – sequence: 7 fullname: Verstraete, Willy |
| BackLink | http://pascal-francis.inist.fr/vibad/index.php?action=getRecordDetail&idt=20494912$$DView record in Pascal Francis https://www.ncbi.nlm.nih.gov/pubmed/18506439$$D View this record in MEDLINE/PubMed |
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| ContentType | Journal Article |
| Copyright | Springer-Verlag 2008 2008 INIST-CNRS |
| Copyright_xml | – notice: Springer-Verlag 2008 – notice: 2008 INIST-CNRS |
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| DOI | 10.1007/s00253-008-1522-2 |
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| Keywords | Ohmic resistance Overpotentials Bioenergy Biocatalysts Biofuel cell Biocatalyzed electrolysis biofuel cell Biocatalysis Electrolysis Bioelectrochemistry Review Application Bioactalysis |
| Language | English |
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| PublicationTitle | Applied microbiology and biotechnology |
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