Littérature scientifique sur le sujet « Effluents textiles traités »
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Articles de revues sur le sujet "Effluents textiles traités"
Zidane, Fatiha, Fakhreddine Qassid, Soumia El Basri, Jalila Bensaid, Patrick Drogui et Jean-François Blais. « Décoloration des effluents par des structures adsorbantes générées par électrocoagulation avec des électrodes d’aluminium et de fer ». Revue des sciences de l’eau 25, no 1 (28 mars 2012) : 33–47. http://dx.doi.org/10.7202/1008534ar.
Texte intégralNaseem, Zainab, Muhammad Naveed, Muhammad Imran, Muhammad Saqlain, Muhammad Asif, Mohsin Bashir, Saud Alamri, Manzer H. Siddiqui, Martin Brtnicky et Adnan Mustafa. « Elucidating the Potential of Dye-Degrading Enterobacter cloacae ZA14 for Cultivation of Solanum lycopersicum Plants with Textile Effluents ». Water 15, no 17 (4 septembre 2023) : 3163. http://dx.doi.org/10.3390/w15173163.
Texte intégralRiva, Valentina, Francesca Mapelli, Evdokia Syranidou, Elena Crotti, Redouane Choukrallah, Nicolas Kalogerakis et Sara Borin. « Root Bacteria Recruited by Phragmites australis in Constructed Wetlands Have the Potential to Enhance Azo-Dye Phytodepuration ». Microorganisms 7, no 10 (24 septembre 2019) : 384. http://dx.doi.org/10.3390/microorganisms7100384.
Texte intégralBouyakoub, Amel Zahira, Smaïl Kacha, Rachid Ouhib, Sohbi Bellebia et Bruno Lartiges. « Traitement combiné d’un effluent textile contenant des colorants réactifs par coagulation-floculation et électroflottation ». 23, no 1 (25 janvier 2010) : 89–103. http://dx.doi.org/10.7202/038927ar.
Texte intégralThèses sur le sujet "Effluents textiles traités"
Mzahma, Sourour. « Impact sur des sols agricoles et des plantes de l'irrigation par des effluents textiles traités ». Electronic Thesis or Diss., Strasbourg, 2024. http://www.theses.fr/2024STRAH001.
Texte intégralThe textile industry is the most polluting of all industrial sectors. This sector is not only a large consumer of water, but it also discharges enormous quantities of wastewater loaded with salts, dyes, detergents, heavy metals, degradable organic materials, stabilizing agents, etc. The discharge of this water presents risks for hydro-ecosystems, soil, and plants. In addition to the harmful effects of untreated textile effluent on the environment, there is the problem of water scarcity which is becoming increasingly serious. the high demand for water in the agricultural sector, and the lack of fodder in some countries around the world such as Tunisia. In this sense, several processes have been developed to treat textile effluents such as chemical oxidation, chemical coagulation, biodegradation, adsorption, and membrane processes. However, few studies have focused on the impact of irrigation with these treated effluents on soils and plants.The objective of this thesis is the reuse of treated textile effluent (TTE) using scenarios of agricultural valorization of these waters. This work consists of submitting biological treatment (TB) effluents from a Tunisian textile factory to additional treatments by ultrafiltration (UF), nanofiltration (NF), and reverse osmosis (RO). Given that TB effluents are characterized by high salinity, a coupling scenario was considered by mixing 50/50 (V: V) biological treatment water (TB) with well water (S) (TB/S) and NF waters (TB/NF). The impact of irrigation with these waters on the physicochemical and biological parameters of the soil and on the growth, mineral composition, and absorption of MTE in a forage plant: Sesbania bispinosa was evaluated. A physicochemical characterization of irrigation water was carried out with an evaluation of the genotoxic potential of soils irrigated by TTE.The results indicate that the quality of TTE is not stable over time and varies according to the production processes. TB does not meet the requirements of the NT 106.03 standard relating to the reuse of wastewater in agriculture. These waters are characterized by high pH, EC, and Na+, Cl- and SO42- contents. Although NF and RO membranes effectively reduce salinity and the contents of these elements and do not present any risk to the soil and plants with the absence of genotoxic effect of soils on plants, these techniques produce more concentrated water discharges. Consequently, the coupling of TB water with well water constitutes the best alternative for agricultural valorization. This coupling made it possible to reduce the salinity of TB water by reducing the contents of chemical elements such as Na+, Cl-, and SO42-. The reuse of this water for agricultural purposes did not show negative effects on the growth and mineral nutrition of S.bispinosa, did not present risks on the physico-chemical quality of the soil, and contributed to an improvement in enzymatic activity in the soil. Therefore, water coupling constitutes a valorization option. It is a simple and inexpensive solution which, on the one hand, makes it possible to overcome the lack of water and, on the other hand, reduces the quantities of water released into the environment by the textile industries