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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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Journal ArticleDOI
Bioelectrochemical hydrogen peroxide production – an opportunity for sustainable mitigation of membrane bioreactor fouling
TL;DR: In this paper, a new concept for chemical membrane cleaning with hydrogen peroxide (H2O2), generated onsite in a bioelectrochemical system, was proposed, where the energy present in the wastewater organics can be used to power the production process.
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Electrochemical codeposition of arsenic from acidic copper sulfate baths: The implications for sustainable copper electrometallurgy
Florian Verbruggen,Florian Verbruggen,Pieter Ostermeyer,Luiza Bonin,Antonin Prévoteau,Kristof Marcoen,Tom Hauffman,Tom Hennebel,Tom Hennebel,Korneel Rabaey,Michael S. Moats +10 more
TL;DR: In this article, linear sweep voltammetry was used to study the electrodeposition behavior of copper and arsenic, define strategies for the production of grade A copper, and the removal of arsenic from complex electrolytes.
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Microbial electrosynthesis of acetate from CO2 under hypersaline conditions
TL;DR: In this article , a two-chamber MES system with 35-60 g L-1 salinity was evaluated and it was shown that increasing the salinity stepwise gave the most efficient acetate production at 40 g L 1 salinity with average rates of acetate and CO2 consumption at 4.56 ± 3.09 and 7.02 ± 4.75 g m-2 d-1, respectively.
Patent
Production of methanol or methanol derivatives
Korneel Rabaey,Rene Rozendal +1 more
TL;DR: In this paper, a process for producing methanol or a methenol derivative from methane comprises the steps of providing a bioelectrochemical system having a bioanode and a cathode.
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Sulfonated silica-based cation-exchange nanofiber membranes with superior self-cleaning abilities for electrochemical water treatment applications
Bianca Swanckaert,Eva Loccufier,Jozefien Geltmeyer,Korneel Rabaey,Klaartje De Buysser,Luiza Bonin,Karen De Clerck +6 more
TL;DR: In this article , a silica-based nanofiber cation-exchange membrane (CEM) was proposed for industrial water treatment applications, which achieved a Coulombic efficiency of ± 70 % for the transport of Na+ using a current density of either 128 or 256 A/m−2.