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Page 1
High-Rate Sulfate Removal Coupled to Elemental Sulfur Production in Mining Process Waters Based on Membrane-Biofilm Technology.
Front Bioeng Biotechnol. 2022 Mar 7;10:805712. doi: 10.3389/fbioe.2022.805712. eCollection 2022.
Front Bioeng Biotechnol. 2022.
PMID: 35340841
Free PMC article.
A steady-state pH-control model for the biological production of elemental sulfur from sulfate in mining-influenced water.
Schwarz A, Aybar M, Suárez J, Rittmann B.
Schwarz A, et al. Among authors: aybar m.
Water Res. 2024 Feb 15;250:121067. doi: 10.1016/j.watres.2023.121067. Epub 2023 Dec 25.
Water Res. 2024.
PMID: 38150861
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A membrane-biofilm system for sulfate conversion to elemental sulfur in mining-influenced waters.
Schwarz A, Suárez JI, Aybar M, Nancucheo I, Martínez P, Rittmann BE.
Schwarz A, et al. Among authors: aybar m.
Sci Total Environ. 2020 Oct 20;740:140088. doi: 10.1016/j.scitotenv.2020.140088. Epub 2020 Jun 9.
Sci Total Environ. 2020.
PMID: 32559542
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Influence of operating conditions on sulfate reduction from real mining process water by membrane biofilm reactors.
Suárez JI, Aybar M, Nancucheo I, Poch B, Martínez P, Rittmann BE, Schwarz A.
Suárez JI, et al. Among authors: aybar m.
Chemosphere. 2020 Apr;244:125508. doi: 10.1016/j.chemosphere.2019.125508. Epub 2019 Nov 29.
Chemosphere. 2020.
PMID: 31812042
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Nitrate increases the capacity of an aerobic moving-bed biofilm reactor (MBBR) for winery wastewater treatment.
Walker P, Nerenberg R, Pizarro G, Aybar M, Pavissich JP, González B, Pastén P.
Walker P, et al. Among authors: aybar m.
Water Sci Technol. 2024 Mar;89(6):1454-1465. doi: 10.2166/wst.2024.060. Epub 2024 Feb 26.
Water Sci Technol. 2024.
PMID: 38557711
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