Retention of E. coli on Natural Pozzolan Beds

Natural pozzolan is an amorphous silicate-based material of volcanic origin. In this work, the natural pozzolan was modified by using 3-aminopropyltriethoxysilane (APTES) as a grafting agent. This material was characterized by pH, N adsorption/desorption curves, FTIR, TGA/DTG, DRUV, SEM, and elementary analysis. The functionalized materials were used for the removal of Reactive Black 5 (RB-5) and Brilliant Green 1 (BG-1) dyes from aqueous solutions using batch-contact adsorption. The characterization of modified pozzolan by FTIR, TGA/DTG, BET, and DRUV-vis revealed the effectiveness of grafting of amine functional group on pozzolan structure. The kinetic adsorption data were better fitted with general order for both dyes while for equilibrium models were better fitted by the Liu isotherm model. The maximum sorption capacities Q (at 50 °C) obtained with the modified pozzolan were 350.6 and 300.9 mg g for BG-1 and RB-5, at pH 9.0 and 2.0, respectively. The thermodynamic parameters show that the removal of dyes was spontaneous and endothermic. The modified material was also tested for the treatment of simulated dye house effluents showing very high efficiency.

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Synthesis of grafted natural pozzolan with 3-aminopropyltriethoxysilane: preparation, characterization, and application for removal of Brilliant Green 1 and Reactive Black 5 from aqueous solutions

Wamba

Lima

Ndi

et al. 2017

Environ Sci Pollut Res

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Évaluation de la durée d’inoculation d’un biofiltre granulaire de pouzzolane à partir des souches indigènes de bactéries et de levures isolées d’effluent d’industrie de caoutchouc

Koungou

Mengue

Kofa

et al. 2016

rseau

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Le pouvoir épuratoire d’un biofiltre granulaire dépend du temps nécessaire pour que les microorganismes se fixent dans le lit granulaire. Ce temps dépend non seulement des microorganismes, mais également des facteurs environnementaux tels que le pH. Cette étude a consisté à étudier l’influence du pH sur le temps nécessaire à quatre souches microbiennes isolées des effluents d’une usine de production de caoutchouc naturel à se fixer dans un lit granulaire de pouzzolane. Deux types de levures (LR et LB) et deux types de bactéries (BB et BC) ont été fixés sur les grains de pouzzolane ayant une taille de 300-400 µm. Les tests ont été réalisés dans une colonne en PVC (hauteur 1 m, diamètre interne 6 cm). Après la caractérisation hydrodynamique du lit, les essais de fixation des microorganismes dans le lit ont été réalisés, à différents pH (4, 5, 6 pour les levures et 5, 7, 9 pour les bactéries) et à débit d’écoulement constant 2,6 mL∙s‑1. L’étude de l’hydrodynamique montre que le régime d’écoulement dans la colonne est laminaire et l’écoulement est de type piston. La porosité du lit granulaire est de 0,64. Le pH 5 est celui qui se prête le mieux à la fixation des souches BC et BB avec un taux de rétention de 74 ± 2 % pour BC, et 79 ± 1 % pour BB. Cette rétention est réalisée après 28 h pour la souche BC et 25 h pour la souche BB. Cependant, à pH 9 on observe une diminution de 20 % de la quantité retenue et un relargage des souches du lit à partir de la 30e heure d’opération. Une durée de 25 h est nécessaire pour une fixation maximale des souches LB et LR. Un pH entre 5 et 6 génère le meilleur taux de rétention (80 ± 4 %), mais à pH 4 on assiste à un décrochage des levures à partir de la 20e heure d’opération.The purifying capacity of a granular biofilter depends on the time necessary for microorganisms to be fixed in the granular bed. This time depends only not on the microorganisms but also on environmental factors such as pH. This study was to investigate the influence of pH on the time required by four microbial strains isolated from the effluent of a natural rubber production plant to settle in the granular pozzolan bed. Two types of endogenous yeasts (LR and LB) and two types of bacteria (BB and BC) were fixed on the pozzolan grains having a size of 300-400 µm. The tests were conducted in a polyvinyl chloride (PVC) column (height 1 m, internal diameter 6 cm). After hydrodynamic characterization of the bed, binding tests of the microorganisms in the bed were carried out at different pH values (4, 5, 6 for yeast and 5, 7, 9 for the bacteria) and at a constant flow rate of 2.6 mL∙s‑1. The hydrodynamic study indicated that the flow state in our column was laminar and the flow was of a piston type. The porosity of the granular bed was 0.64. A pH of 5 was best for the binding and retention of the BC and BB bacteria strains, with a retention rate of 74 ± 2% for BC and 79 ± 1% for BB. This retention was achieved after 28 h for the BC strain and 25 h for the BB strain. However, at pH 9 we observed a reduction of the retai...

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Retention of E. coli on Natural Pozzolan Beds

Cited by 2 publications

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Synthesis of grafted natural pozzolan with 3-aminopropyltriethoxysilane: preparation, characterization, and application for removal of Brilliant Green 1 and Reactive Black 5 from aqueous solutions

Synthesis of grafted natural pozzolan with 3-aminopropyltriethoxysilane: preparation, characterization, and application for removal of Brilliant Green 1 and Reactive Black 5 from aqueous solutions

Évaluation de la durée d’inoculation d’un biofiltre granulaire de pouzzolane à partir des souches indigènes de bactéries et de levures isolées d’effluent d’industrie de caoutchouc

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