K
Korneel Rabaey
Researcher at Ghent University
Publications - 343
Citations - 37479
Korneel Rabaey is an academic researcher from Ghent University. The author has contributed to research in topics: Microbial fuel cell & Fermentation. The author has an hindex of 78, co-authored 314 publications receiving 31825 citations. Previous affiliations of Korneel Rabaey include University of Greifswald & University of Queensland.
Papers
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Tubular microbial fuel cells for efficient electricity generation.
TL;DR: To further improve MFCs, focus has to be placed on the enhanced conversion of nonrapidly biodegradable material and the better directing of the anode flow toward the electrode instead of to alternative electron acceptors.
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Global Phosphorus Scarcity and Full-Scale P-Recovery Techniques: A Review
Evelyn Desmidt,Karel Ghyselbrecht,Yang Zhang,Luc Pinoy,Bart Van der Bruggen,Willy Verstraete,Korneel Rabaey,Boudewijn Meesschaert +7 more
TL;DR: In this paper, the current situation and a forecast for future phosphate production and reserves are described and a detailed review of existing full-scale P-recovery techniques from the liquid phase, sludge phase, and sludge ash are reviewed.
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Microbial ecology meets electrochemistry: electricity-driven and driving communities.
Korneel Rabaey,Jorge Rodríguez,Linda L. Blackall,Jurg Keller,Pamela G. Gross,Damien J. Batstone,Willy Verstraete,Kenneth H. Nealson +7 more
TL;DR: Owing to their versatility, unmatched level of control and capacity to sustain novel processes, BESs might well serve as the foundation of a new environmental biotechnology.
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Microbial fuel cells for simultaneous carbon and nitrogen removal.
TL;DR: A novel process configuration that achieves both carbon and nitrogen removal using MFC is designed and demonstrated and it is demonstrated that also nitrite can be used as cathodic electron acceptor and a further reduction of the COD/N ratio would be possible.
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Minimizing losses in bio-electrochemical systems: the road to applications
Peter Clauwaert,Peter Aelterman,Liesje De Schamphelaire,Marta Carballa,Korneel Rabaey,Willy Verstraete +5 more
TL;DR: To effectively apply BESs in practice, both biological and electrochemical losses need to be further minimized, and the costs of reactor materials and volumetric biocatalyst activity in the systems has to be increased substantially.