Tetracycline removal from water by adsorption/bioadsorption on activated carbons and sludge-derived adsorbents
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The objective of this study was to analyze the behavior of activated carbons with different chemical and textural natures in the adsorption of three tetracyclines (TCs) (tetracycline, oxytetracycline, and chlortetracycline). We also assessed the influence of the solution pH and ionic strength on the adsorption of these compounds and studied their removal by the combined use of microorganisms and activated carbon (bioadsorption). Sludge-derived materials were also used to remove TC from water. The capacity of these materials to adsorb TC was very high and was much greater than that of commercial activated carbon. This elevated adsorption capacity (512.1-672.0mg/g) is explained by the high tendency of TC to form complex ions with some of the metal ions present in these materials. The medium pH and presence of electrolytes considerably affected TCs adsorption on commercial activated carbon. These results indicate that electrostatic adsorbent-adsorbate interactions play an important role in TC adsorption processes when conducted at pH values that produce TC deprotonation. The presence of bacteria during the TCs adsorption process decreases their adsorption/bioadsorption on the commercial activated carbon, weakening interactions between the adsorbate and the microfilm formed on the carbon surface. The adsorptive capacity was considerably lower in dynamic versus static regime, attributable to problems of TC diffusion into carbon pores and the shorter contact time between adsorbate and adsorbent. © 2013 Elsevier Ltd.
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Activated carbon; Adsorption; Natural waters; Sludge-derived adsorbent; Tetracyclines activated carbon; adsorbent; chlortetracycline; electrolyte; ion; metal ion; oxytetracycline; tetracycline; water; activated carbon; adsorption; antibiotics; cation; electrolyte; pH; pollutant removal; sludge; water treatment; adsorption; article; bacterium; bioadsorption; diffusion; ionic strength; microorganism; pH; sludge; Activated carbon; Adsorption; Natural waters; Sludge-derived adsorbent; Tetracyclines; Adsorption; Charcoal; Sewage; Tetracycline; Water Pollutants, Chemical; Water Purification
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