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1.
Water Sci Technol ; 89(6): 1454-1465, 2024 Mar.
Article in English | MEDLINE | ID: mdl-38557711

ABSTRACT

We used bench-scale tests and mathematical modeling to explore chemical oxygen demand (COD) removal rates in a moving-bed biofilm reactor (MBBR) for winery wastewater treatment, using either urea or nitrate as a nitrogen source. With urea addition, the COD removal fluxes ranged from 34 to 45 gCOD/m2-d. However, when nitrate was added, fluxes increased up to 65 gCOD/m2-d, twice the amount reported for aerobic biofilms for winery wastewater treatment. A one-dimensional biofilm model, calibrated with data from respirometric tests, accurately captured the experimental results. Both experimental and modelling results suggest that nitrate significantly increased MBBR capacity by stimulating COD oxidation in the deeper, oxygen-limited regions of the biofilm. Our research suggests that the addition of nitrate, or other energetic and broadly used electron acceptors, may provide a cost-effective means of covering peak COD loads in biofilm processes for winery or another industrial wastewater treatment.


Subject(s)
Waste Disposal, Fluid , Water Purification , Waste Disposal, Fluid/methods , Nitrates , Biofilms , Bioreactors , Organic Chemicals , Water Purification/methods , Nitrogen , Urea , Denitrification
2.
Biomed Res Int ; 2019: 2051986, 2019.
Article in English | MEDLINE | ID: mdl-31360705

ABSTRACT

Nitrification and sulfur-based autotrophic denitrification processes can be used to remove ammonia from wastewater in an economical way. However, under certain operational conditions, these processes accumulate intermediate compounds, such as elemental sulphur, nitrite, and nitrous oxide, that are noxious for the environment. In order to predict the generation of these compounds, an analysis based on the Gibbs free energy of the possible reactions and on the oxidative capacity of the bulk liquid was done on case study systems. Results indicate that the Gibbs free energy is not a useful parameter to predict the generation of intermediate products in nitrification and autotrophic denitrification processes. Nevertheless, we show that the specific productions of nitrous oxide during nitrification, and of elemental sulphur and nitrite during autotrophic denitrification, are well related to the oxidative capacity of the bulk liquid.


Subject(s)
Ammonia/chemistry , Autotrophic Processes , Nitrification , Nitrites/chemistry , Nitrous Oxide/chemistry , Wastewater/chemistry , Oxidation-Reduction , Sulfur/chemistry
3.
Mar Pollut Bull ; 64(10): 2135-45, 2012 Oct.
Article in English | MEDLINE | ID: mdl-22921896

ABSTRACT

We studied the abundance and diversity of the sulfate-reducing prokaryotes (SRPs) in two 30-cm marine chilean sediment cores, one with a long-term exposure to copper-mining residues, the other being a non-exposed reference sediment. The abundance of SRPs was quantified by qPCR of the dissimilatory sulfite reductase gene ß-subunit (dsrB) and showed that SRPs are sensitive to high copper concentrations, as the mean number of SRPs all along the contaminated sediment was two orders of magnitude lower than in the reference sediment. SRP diversity was analyzed by using the dsrB-sequences-based PCR-DGGE method and constructing gene libraries for dsrB-sequences. Surprisingly, the diversity was comparable in both sediments, with dsrB sequences belonging to Desulfobacteraceae, Syntrophobacteraceae, and Desulfobulbaceae, SRP families previously described in marine sediments, and to a deep branching dsrAB lineage. The hypothesis of the presence of horizontal transfer of copper resistance genes in the microbial population of the polluted sediment is discussed.


Subject(s)
Copper/toxicity , Geologic Sediments/microbiology , Sulfur-Reducing Bacteria/genetics , Water Pollutants, Chemical/toxicity , Base Sequence , Biodiversity , Chile , Genetic Variation , Geologic Sediments/chemistry , Molecular Sequence Data , Prokaryotic Cells/classification , Prokaryotic Cells/drug effects , Seawater/chemistry , Seawater/microbiology , Sulfur-Reducing Bacteria/classification , Sulfur-Reducing Bacteria/drug effects , Sulfur-Reducing Bacteria/growth & development
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