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Academic literature on the topic 'Eaux usées réelles'
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Journal articles on the topic "Eaux usées réelles"
Garcia, Jesús Villalobos, Claire Vialle, Caroline Sablayrolles, Mireille Montrejaud-Vignoles, Jean-Philippe Amalric, Matthias Desmolles, Christian Vignoles, Patrice Gallien, and Claire Albasi. "Étude de la performance du milieu filtrant constitué d’une couche de chènevotte sur une couche de grignons d'olives dans le traitement des eaux usées domestiques : du pilote à l’échelle industrielle." Revue des sciences de l’eau 32, no. 1 (May 15, 2019): 1–10. http://dx.doi.org/10.7202/1059876ar.
Full textCAPDEVILLE, M. J., S. AÏT-AÏSSA, B. BARILLON, J. BARRAULT, M. BAUDRIMONT, A. BERTUCCI, F. BOTTA, et al. "Diagnostiquer et réduire à la source les micropolluants – Retour d’expérience du projet Regard (Bordeaux Métropole)." 3, no. 3 (March 22, 2021): 13–36. http://dx.doi.org/10.36904/tsm/202103013.
Full textLewis-Borrell, Luke, Jessica Irving, Chris J. Lilley, Marie Courbariaux, Gregory Nuel, Leon Danon, Kathleen M. O'Reilly, Jasmine M. S. Grimsley, Matthew J. Wade, and Stefan Siegert. "Robust smoothing of left-censored time series data with a dynamic linear model to infer SARS-CoV-2 RNA concentrations in wastewater." AIMS Mathematics 8, no. 7 (2023): 16790–824. http://dx.doi.org/10.3934/math.2023859.
Full textBabineau, Daniel, Dominique Chartray, and Roland Leduc. "Étude comparative de deux floculants pour le traitement physicochimique d'une eau usée municipale : chitosane et polymère de synthèse." Water Quality Research Journal 43, no. 2-3 (May 1, 2008): 219–29. http://dx.doi.org/10.2166/wqrj.2008.025.
Full textPROST-BOUCLE, S., H. KAMGAN NZEUFO, T. BARDO, S. MOREAU, H. GUYARD, C. DUWIG, B. KIM, V. DUBOIS, S. GILLOT, and R. CLEMENT. "Capteurs bon marché et centrales d’acquisition DIY pour les eaux usées : le projet Setier." Techniques Sciences Méthodes, no. 1-2 (February 21, 2022): 35–44. http://dx.doi.org/10.36904/tsm/202201035.
Full textBODIN, Clara, Roxane CHÊNE, Annie MARION, Léa SOUVIGNET, Aurélie CORTÉJADE, and Mickaël NICOLAS. "Développement et validation d’une méthode de quantification de 25 composés perfluorés dans les eaux usées." TSM 12 2023, TSM 12 2023 (December 20, 2023): 143–63. http://dx.doi.org/10.36904/tsm/202312143.
Full textLaouali, Garba, Claude E. Delisle, Gilles Vincent, Denis Couillard, and Sani Laouali. "Étude expérimentale de traitement des eaux usées par des lagunes à hydrophytes libres au Niger." Water Quality Research Journal 31, no. 1 (February 1, 1996): 37–50. http://dx.doi.org/10.2166/wqrj.1996.003.
Full textDissertations / Theses on the topic "Eaux usées réelles"
Philippi, Luiz-Sérgio. "Etude expérimentale de dispositifs d'assainissement autonome. Applications en conditions réelles." Montpellier 1, 1992. http://www.theses.fr/1992MON13505.
Full textEshamuddin, Muhammad. "Elimination des micropolluants organiques par couplage Moving Bed Biofilm Reactor (MBBR) et procédés membranaires : application aux eaux usées domestiques et hospitalière." Electronic Thesis or Diss., Université de Toulouse (2023-....), 2024. http://www.theses.fr/2024TLSEP069.
Full textThe perpetual increase in human activities has resulted in recurrent detections of various organic micropollutants (MPs) particularly at the outlet of wastewater treatment plants (WWTPs). The eventual discharge of such emerging contaminants, e.g., pharmaceutically active compounds, endocrine disrupting chemicals and pesticides, into water bodies remains a worrying issue due to their potential cumulative and toxic effects. Despite their presence at relatively low concentrations (< 1 µg.L-1), the release of these molecules into the environment has been indeed associated with multiple significant risks to human health and aquatic ecosystems.Despite noteworthy removal efficiencies of carbon- and nitrogen-based pollutants displayed by secondary treatments presently used in most WWTPs, the operational conditions applied are not always well adapted for the elimination of MPs, hence making WWTPs one of the major pathways for the influx of these contaminants into aquatic environment. This therefore leads to the implementation of tertiary or hybrid processes to enhance their removal. The constant increment in the number of research attempting to elucidate the elimination pathways of these MPs from wastewater via single or integrated processes illustrates the complexity of this matter.This PhD work focuses on the elimination of 19 MPs of different physicochemical properties and the ability of native microbial community to eliminate them in a hybrid system fed with different natures of non-conventional wastewater (i.e., domestic and hospital). The main particularity of these pre-treated effluents is their atypically low carbon content, resulting in C/N ratio in the range of 0.9 to 5.4. The hybrid process consists of a Moving Bed Biofilm Reactor (MBBR) coupled with two membrane processes - a dynamic ultrafiltration (UF) and a hollow fibre nanofiltration (NF) unit. Essential process parameters such as chemical oxygen demand (COD), mass of attached biofilm, nitrogenous compounds and MPs removal rates are comprehensively analysed. The microbial profiles of different forms of biomass (i.e., inoculum, suspended biomass, attached biofilm) in the MBBR are also analysed via high-throughput DNA sequencing for comparative purposes.Based on the results obtained, the hybrid process particularly the MBBR presents relatively high elimination efficiency of COD (>75%) regardless of the nature of wastewater. Besides, the lab-scale system with the presence of NF3 filtration unit is also efficient in eliminating most of the targeted MPs (>85%) including recalcitrant compounds such as carbamazepine. As regards the microbiological aspects, the MBBR has proven to enhance the richness of microbial population, which was reflected by the higher ACE and Chao1 indexes when compared with the inoculum. Moreover, in the MBBR itself, attached biofilm possess higher microbial richness than suspended biomass in the MBBR. Concerning the most abundant phylum and class, Proteobacteria and its corresponding classes, Alpha- and Beta-proteobacteria dominated most biomass samples regardless of the campaigns. Statistical analysis have highlighted co-metabolism mechanisms linking the biological removal of certain targeted MPs with denitrification potential or nitrification capacity.Finally, future perspectives of this work include the establishment of a correlation between the removals of MPs and the diversity of microbial populations, but a larger amount of data would be necessary. Indeed, the latter will be obtained from future experiments with a scale-up system, in which the addition of an advanced oxidation process (i.e., ozonation) to further enhance the performance of the hybrid system in terms of MPs removal is devised. Besides, acute toxicity and antibioresistance assays conducted by collaborators of the project demonstrate positive outcomes hence assuring a promising future for this innovative system
Delrue, Florian. "Modélisation du procédé bioréacteur à membranes immergées : calage et validation du modèle ASM1 sur un site réel : étude des interactions boues activées, conditions opératoires et membrane." Thesis, Bordeaux 1, 2008. http://www.theses.fr/2008BOR13760/document.
Full textMembrane bioreactors (MBRs) are becoming increasingly popular for the treatment of municipal wastewater especially when land is limited or when the treatment requirements are high. Nevertheless, the operation of these plants and in particular the fouling of the membrane are still difficult to manage for the operators. Modelling is an efficient tool, which has already been successfully used on conventional activated sludge processes, for the operation and the understanding of the process using Activated Sludge Models (ASM). Biological treatment and membranes filtration capacity (fouling) are two aspects that can be modeled on MBRs. In this work, three full-scale plants were investigated and one of them was chosen for the ASM1 calibration. The usual methodology was adapted to the MBR specificities and to the modeled wastewater treatment plant in particular (wastewater fractionation, oxygen calibration) and a new set of ASM1 parameters was estimated. The influence of the sludge properties and the operating conditions on the membrane filtration capacity is still the subject of numerous studies, generally on pilot-scale MBRs, and modelling is in its early stages. The objective of this work regarding membrane filtration was to characterize the “membrane/sludge” system by studying the interactions between the sludge properties, the operating conditions and the filtration parameters (membrane permeability and fouling rate) and to compare them with the results from the literature. The two studied MBRs showed quite different behaviors and correlations between parameters, validating the statement that the interactions between membranes, sludge and operating conditions are very complex
Vanessa, Peings. "Le ferrate (VI) de potassium : optimisation de sa synthèse par voie hétérogène à une échelle semi-industrielle et applications au traitement des eaux, de polluants modèles aux effluents réels." Thesis, Pau, 2014. http://www.theses.fr/2014PAUU3041.
Full textPotassium ferrate (VI) is a new challenging product in the field of water treatment. The world interest in this high-valent iron is explained by its properties of chemical oxidant, coagulant and disinfectant. However, high cost of its production restricts its big scale applications. Thus, the main objective of this study is focused on ferrate synthesis in a solid form more stable K2(Fe0,5,S0,5)O4. At first, synthesis has been developed at lab scale to improve understanding of its mechanisms and define the conception of a small industrial pilot. At the moment, a product with 28-34% of K2(Fe0,5,S0,5)O4 is obtained. The removal of organics (pharmaceuticals, toxins, bacteria…) and inorganics (cyanides, metals…) in water by ferrate (VI) has been explored. An oxidation mechanism which consists in a single electron transfer has been highlighted for phenol treatment. Finally, the results confirm the real ability of the product synthesized to treat both contaminants in water and industrial effluents