Cees J.N. Buisman scite author profile

Chain elongation into medium-chain carboxylates, such as n-caproate and n-caprylate, with ethanol as an electron donor and with open cultures of microbial consortia (i.e., reactor microbiomes) under anaerobic conditions is being developed as a biotechnological production platform. The goal is to use the high thermodynamic efficiency of anaerobic fermentation to convert organic biomass or organic wastes into valuable biochemicals that can be extracted. Several liter-scale studies have been completed and a first pilot-plant study is underway. However, the underlying microbial pathways are not always well understood. In addition, an interdisciplinary approach with knowledge from fields ranging from microbiology and chemical separations to biochemistry and environmental engineering is required. To bring together research from different fields, we reviewed the literature starting with the microbiology and ending with the bioprocess engineering studies that already have been performed. Because understanding the microbial pathways is so important to predict and steer performance, we delved into a stoichiometric and thermodynamic model that sheds light on the effect of substrate ratios and environmental conditions on product formation. Finally, we ended with an outlook.

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Towards practical implementation of bioelectrochemical wastewater treatment

Rozendal

Hamelers

Rabaey

et al. 2008

Trends in Biotechnology

1,082

515

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Principle and perspectives of hydrogen production through biocatalyzed electrolysis

Rozendal

Hamelers

Euverink³

et al. 2006

International Journal of Hydrogen Energy

641

372

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Effects of Membrane Cation Transport on pH and Microbial Fuel Cell Performance

Rozendal¹,

Hamelers²,

Buisman³

2006

Environ. Sci. Technol.

712

368

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Due to the excellent proton conductivity of Nafion membranes in polymer electrolyte membrane fuel cells (PEMFCs), Nafion has been applied also in microbial fuel cells (MFCs). In literature, however, application of Nafion in MFCs has been associated with operational problems. Nafion transports cation species other than protons as well, and in MFCs concentrations of other cation species (Na+, K+, NH4+, Ca2+, and Mg2+) are typically 10(5) times higher than the proton concentration. The objective of this study, therefore, was to quantify membrane cation transport in an operating MFC and to evaluate the consequences of this transport for MFC application on wastewaters. We observed that during operation of an MFC mainly cation species other than protons were responsible for the transport of positive charge through the membrane, which resulted in accumulation of these cations and in increased conductivity in the cathode chamber. Furthermore, protons are consumed in the cathode reaction and, consequently, transport of cation species other than protons resulted in an increased pH in the cathode chamber and a decreased MFC performance. Membrane cation transport, therefore, needs to be considered in the development of future MFC systems.

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Salinity-gradient power: Evaluation of pressure-retarded osmosis and reverse electrodialysis

Post

Veerman²,

Hamelers

et al. 2007

Journal of Membrane Science

535

361

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Cees J.N. Buisman

Chain Elongation with Reactor Microbiomes: Open-Culture Biotechnology To Produce Biochemicals

Towards practical implementation of bioelectrochemical wastewater treatment

Principle and perspectives of hydrogen production through biocatalyzed electrolysis

Effects of Membrane Cation Transport on pH and Microbial Fuel Cell Performance

Salinity-gradient power: Evaluation of pressure-retarded osmosis and reverse electrodialysis

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