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Iemke Bisschops
Researcher at Wageningen University and Research Centre
Publications - 19
Citations - 1008
Iemke Bisschops is an academic researcher from Wageningen University and Research Centre. The author has contributed to research in topics: Sanitation & Wastewater. The author has an hindex of 9, co-authored 19 publications receiving 879 citations.
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Journal ArticleDOI
Activated Carbon as an Electron Acceptor and Redox Mediator during the Anaerobic Biotransformation of Azo Dyes
TL;DR: Novel role of AC as redox mediator in accelerating the reductive transformation of pollutants as well as a terminal electron acceptor in the biological oxidation of an organic substrate is described.
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Literature review on textile wastewater characterisation
Iemke Bisschops,Henri Spanjers +1 more
TL;DR: This literature review provides an overview of what is known about the wastewater of the separate processes, and the methods used for characterisation of these streams.
Journal ArticleDOI
Effect of different redox mediators during thermophilic azo dye reduction by anaerobic granular sludge and comparative study between mesophilic (30 °C) and thermophilic (55 °C) treatments for decolourisation of textile wastewaters
TL;DR: The impact of different redox mediators on color removal of azo dye model compounds and textile wastewater by thermophilic anaerobic granular sludge (55 °C) was investigated in batch assays in this paper.
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The contribution of biotic and abiotic processes during azo dye reduction in anaerobic sludge
Frank P. van der Zee,Iemke Bisschops,Valérie G Blanchard,Renske H. M. Bouwman,Gatze Lettinga,Jim A. Field +5 more
TL;DR: The relative importance of chemical dye reduction mechanisms in high rate anaerobic bioreactors was shown to be small due to the high biomass levels in the reactors.
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Pilot-scale conversion of lime-treated wheat straw into bioethanol: quality assessment of bioethanol and valorization of side streams by anaerobic digestion and combustion
Ronald H. W. Maas,Robert R. Bakker,Arjen R Boersma,Iemke Bisschops,Jan R. Pels,Ed de Jong,Ruud A. Weusthuis,Hans Reith +7 more
TL;DR: This paper describes an integrated pilot-scale process where lime-treated wheat straw with a high dry-matter content is converted to ethanol via simultaneous saccharification and fermentation by commercial hydrolytic enzymes and bakers' yeast, showing that it meets transportation ethanol fuel specifications.