Searched for: author%3A%22Timmers%2C+Peer+H.A.%22
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Kiragosyan, K. (author), Picard, Magali (author), Timmers, Peer H.A. (author), Sorokin, Dimitry Y. (author), Klok, Johannes B.M. (author), Roman, Pawel (author), Janssen, Albert J.H. (author)
This study provides important new insights on how to achieve high sulfur selectivities and stable gas biodesulfurization process operation in the presence of both methanethiol and H<sub>2</sub>S in the feed gas. On the basis of previous research, we hypothesized that a dual bioreactor lineup (with an added anaerobic bioreactor) would favor...
journal article 2020
Timmers, Peer H.A. (author), Vavourakis, Charlotte D. (author), Kleerebezem, R. (author), Sinninghe Damsté, Jaap S. (author), Muyzer, Gerard (author), Stams, Alfons J.M. (author), Sorokin, Dimitry Y. (author), Plugge, Caroline M. (author)
Anaerobic syntrophic acetate oxidation (SAO) is a thermodynamically unfavorable process involving a syntrophic acetate oxidizing bacterium (SAOB) that forms interspecies electron carriers (IECs). These IECs are consumed by syntrophic partners, typically hydrogenotrophic methanogenic archaea or sulfate reducing bacteria. In this work, the...
journal article 2018
Timmers, Peer H.A. (author), Welte, Cornelia U. (author), Koehorst, Jasper J. (author), Plugge, Caroline M. (author), Jetten, M.S.M. (author), Stams, Alfons J M (author)
Anaerobic oxidation of methane (AOM) is catalyzed by anaerobic methane-oxidizing archaea (ANME) via a reverse and modified methanogenesis pathway. Methanogens can also reverse the methanogenesis pathway to oxidize methane, but only during net methane production (i.e., "trace methane oxidation"). In turn, ANME can produce methane, but only...
review 2017