La bioadsorption sur amidon réticulé pour enlever des métaux des effluents industriels

L’industrie de traitement de surface utilise de nombreux produits chimiques, en particulier des métaux toxiques et des substances organiques, qui sont connus pour être nocifs vis-à-vis des humains et de l’environnement. En raison d’une réglementation de plus en plus stricte, les effluents contenant des métaux lourds doivent être traités. Il existe une grande variété de procédés de traitement des eaux usées provenant de la filière traitement de surface. En général, les systèmes conventionnels de détoxification se composent principalement d’un ajustement de pH, d’une oxydation des cyanures et d’une réduction des chromes, suivi d’une précipitation sous forme d’hydroxydes et d’une clarification, et parfois d’une étape d’adsorption sur charbon. Cependant, la technologie sur charbon actif présente plusieurs problèmes tels que la saturation rapide et des problèmes de colmatage des réacteurs. Comme les résines d'échange d’ions, leur utilisation est restreinte due au coût élevé. Pour ces raisons, la plupart des petites et moyennes entreprises ne peuvent pas utiliser de tels traitements. Ainsi, afin de répondre à ces problématiques, de nombreuses études sont menées pour trouver des alternatives peu coûteuses, qui soient efficaces et acceptables pour un usage industriel. Dans cette étude, la bioadsorption sur un adsorbant d’amidon réticulé a été utilisée pour retenir les métaux contenus dans des effluents industriels. L’adsorption a été étudiée en fonction du temps de contact, de la masse d’adsorbant et de la charge polluante. L’influence de ces paramètres sur l’efficacité d’adsorption a été évaluée en utilisant une méthode conventionnelle en mode cuvée. Les résultats ont montré que le matériau présente des capacités d’adsorption élevées vis-à-vis des ions métalliques, ce qui permet de diminuer les concentrations métalliques en dessous des valeurs réglementaires. Des mesures de taux de germination sur des graines de Lactuca sativa, utilisé comme test de phytotoxicité, ont été réalisées sur les rejets industriels avant et après adsorption. Ces tests ont confirmé l’efficacité du procédé pour diminuer fortement la toxicité du rejet. L’abattement chimique et la réduction de la toxicité ont montré que la bioadsorption sur un matériau non conventionnel peut être une étape de finition intéressante pour la détoxification des rejets industriels.The surface-treatment industry consumes and discharges an important range of chemicals, in particular toxic metals and organics, that are known to be harmful to humans and the environment. Because of more and more stringent regulations, effluents polluted with heavy metals must be treated. There are a variety of treatment processes for wastewater from the surface-treatment industry. In general, conventional treatment and detoxification systems consist mainly of pH adjustments, oxidation of cyanide and reduction of chromium bearing wastewaters, followed by hydroxide precipitation, clarification, and sometimes carbon sorption. However, active carbon technology presents several problems such as rapid saturation and clogging of the reactors. Like ion-exchange resins, their widespread use is restricted due to high cost. For these reasons, most small and medium-size enterprises cannot employ such treatments. Thus, in order to overcome these problems, many attempts have been made to find inexpensive alternative sorbents, which are both effective and acceptable for industrial use. In this study, biosorption with a starch-based cross-linked adsorbent was used for the removal of heavy metals from industrial effluents. The adsorption of metals was studied as a function of contact time, adsorbent mass and pollutant load. The influence of these parameters on the adsorption efficiency was evaluated using a conventional batch method. Batch experiments showed that the material exhibited high sorption capacities toward metal ions, leading to concentrations that were below current regulatory values. Measurements of the germination rate of Lactuca sativa seeds, used as a phytotoxicity test, were carried out on discharged industrial waters before and after the finishing sorption treatment. Germination tests confirmed the ability of the sorption step to radically decrease the effluent toxicity. Both the chemical abatement and toxicity mitigation of waste water showed that biosorption onto a non-conventional sorbent may constitute an interesting additional treatment step for the detoxification of industrial wastewater

Handicap International’s Risk Education Challenges

Handicap International advocates an integrated approach to mine/explosive remnants of war education that on one hand involves participants ranging from actors in the field to national and international policymakers, and on the other hand includes all pillars of mine action. This article examines some prominent challenges facing these practitioners

Basic emotions: Differences in time sequence and functional imaging with low resolution brain electrical tomography (LORETA)

The aim of the present study is to investigate the relationship between the time course of brain activation during the observation of pictures depic ting scenes associated with the four basic emotion of happiness, sadness, fear and disgust. Twenty-nin e right-handed volunteers (17 male, 12 female; mean age 24.6 years) took part in the study. To stu dy the time course of the affective processing the low resolution brain electromagnetic tomography (LORETA) has been used. Each emotional condition has shown specific activation patterns in different brain regions, changing over time. Our findings are in good agreement with other brain-ima ging studies (PET/fMRI) but with the advantage to investigate the temporal evolution of the emotional process in the millisecond range. The results showed that the time sequence of activa tions is different and characteristic for each emotion conditions

INTERSOS: Thinking Over and Practicing MRE in Iraq

Mine risk education (MRE) has become ever more essential to any humanitarian mine action programme and, recently, to any reconstruction and development strategy of mine-/UXO-affected countries. MRE has been passing through an evolution, both in terms of policies and international/national capacities

Simultaneous adsorption of Cd2+ and reactive dye on mesoporous nanocarbons

High-surface-area mesoporous MgO-templated nanocarbons made with reinforcing fibres from scrap tyres and a bituminous waste as carbon precursors were employed for the simultaneous adsorption of Cd2+ and reactive Cibacron Brilliant Yellow 3G-P dye. A commercial activated carbon (AC) Darco KB-WJ was also used for comparison purposes. The effect of the pH of the solution was studied to establish whether acidic pH favours the adsorption of reactive dye and alkaline pH improves the removal of Cd2+. Because the surface chemistry of the three adsorbents was similar, the focus in this study was directed towards their textural characteristics. It was found that the larger the SBET, the greater the amount of dye removal. The adsorption isotherms corresponding to the commercial AC fitted to the Langmuir-Freundlich model, whereas in the case of the nanocarbons the Langmuir model provided the best fit. The results obtained show that Cd2+ is successfully adsorbed in the presence of the dye due to the ion exchange between the Na+ from the dye and the Cd2+. It was also found that a high total and mesopore volume, and a high SBET played a determinant role in the simultaneous adsorption

Novel magnetite nanoparticles coated with waste sourced bio- based substances as sustainable and renewable adsorbing materials

This study examines the possibility of using bio-based product isolated from urban solid wastes as a material for environmental technological applications. To this end, Fe3O4 nanoparticles coated with different amounts of soluble bio-based products (SBO) were synthesized as low-cost nanoadsorbent for the removal of pollutants in wastewater. Particles of 10 nm diameter with Fe3O4 core and SBO shell were obtained. The concentration of SBO employed in the synthesis had no effect on the size and structure of the NPs, but ruled the pHPZC and aggregation of the nanoparticles in water. The cationic dye crystal violet (CV) was used as a model pollutant to test the adsorption capacity of the nanoparticles. The results indicated that both the medium pH and NP dosage were significant parameters to enhance the removal of CV. The results contribute to the studies which show how wastes can become a source of revenue through the industrial exploitation of their chemical value.Fil: Magnacca, Giuliana. Università di Torino; ItaliaFil: Allera, Alex. Università di Torino; ItaliaFil: Montoneri, Enzo. Università di Torino; ItaliaFil: Celi, Luisella. Università di Torino; ItaliaFil: Benito, Damián Ezequiel. Universidad Nacional de La Plata. Laboratorio de Investigación y Desarrollo de Métodos Analíticos; Argentina. Consejo Nacional de Investigaciones Científicas y Técnicas. Centro Científico Tecnológico Conicet - La Plata; ArgentinaFil: Gagliardi, Leonardo Gabriel. Universidad Nacional de La Plata. Laboratorio de Investigación y Desarrollo de Métodos Analíticos; ArgentinaFil: Martire, Daniel Osvaldo. Consejo Nacional de Investigaciones Científicas y Técnicas. Centro Científico Tecnológico la Plata. Instituto de Investigaciones Fisicoquímicas Teóricas y Aplicadas; ArgentinaFil: Gonzalez, Monica Cristina. Consejo Nacional de Investigaciones Científicas y Técnicas. Centro Científico Tecnológico la Plata. Instituto de Investigaciones Fisicoquímicas Teóricas y Aplicadas; ArgentinaFil: Carlos, Luciano. Consejo Nacional de Investigaciones Científicas y Técnicas. Centro Científico Tecnológico la Plata. Instituto de Investigaciones Fisicoquímicas Teóricas y Aplicadas; Argentin

Synthesis of an ordered mesoporous carbon with graphitic characteristics and its application for dye adsorption

An ordered mesoporous carbon (OMC) was prepared by a chemical vapor deposition technique using liquid petroleum gas (LPG) as the carbon source. During synthesis, LPG was effectively adsorbed in the ordered mesopores of SBA-15 silica and converted to a graphitic carbon at 800 °C. X-ray diffraction and nitrogen adsorption/desorption data and high-resolution transmission electron microscopy (HRTEM) of the OMC confirmed its ordered mesoporous structure. The OMC was utilized as an adsorbent in the removal of dyes from aqueous solution. A commercial powder activated carbon (AC) was also investigated to obtain comparative data. The efficiency of the OMC for dye adsorption was tested using acidic dye acid orange 8 (AO8) and basic dyes methylene blue (MB) and rhodamine B (RB). The results show that adsorption was affected by the molecular size of the dye, the textural properties of carbon adsorbent and surface-dye interactions. The adsorption capacities of the OMC for acid orange 8 (AO8), methylene blue (MB) and rhodamine B (RB) were determined to be 222, 833, and 233 mg/g, respectively. The adsorption capacities of the AC for AO8, MB, and RB were determined to be 141, 313, and 185 mg/ g, respectively. The OMC demonstrated to be an excellent adsorbent for the removal of MB from wastewater.Web of Scienc

Removal of Parabens from Aqueous Solution Using β-Cyclodextrin Cross-Linked Polymer

The removal of four parabens, methyl-, ethyl-, propyl-, and benzyl-paraben, by β-cyclodextrin (β-CD) polymer from aqueous solution was studied. Different β-CD polymers were prepared by using two cross-linkers, i.e., hexamethylene diisocyanate (HMDI) and toluene-2,6-diisocyanate (TDI), with various molar ratios of cross-linker. β-CD-HMDI polymer with molar ratio of 1:7 and β-CD-TDI polymer with ratio 1:4 gave the highest adsorption of parabens among the β-CD-HMDI and β-CD-TDI series, and were subsequently used for further studies. The adsorption capacity of β-CD-HMDI is 0.0305, 0.0376, 0.1854 and 0.3026 mmol/g for methyl-, ethyl-, propyl-, and benzyl-paraben, respectively. β-CD-TDI have higher adsorption capacities compared with β-CD-HMDI, the adsorption capacity are 0.1019, 0.1286, 0.2551, and 0.3699 mmol/g methyl-, ethyl-, propyl-, and benzyl-paraben respectively. The parameters studied were adsorption capacity, water retention, and reusability. Role of both cross-linker in adsorption, hydrophobicity of polymers, and adsorption capacity of different parabens were compared and discussed. All experiments were conducted in batch adsorption technique. These polymers were applied to real samples and showed positive results