Efficient removal of mercury from aqueous solutions and industrial effluent
Autor: | Fernando Jorge Santos Oliveira, Silvia M. Sella, Vanessa Conceicao Gomes, Méri D. Vieira, Elisa M. D. Marques, Maria Bernadete Pinto dos Santos, Kátia Zaccur Leal |
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Rok vydání: | 2015 |
Předmět: |
Langmuir
Environmental Engineering Chemistry Cost-Benefit Analysis Temperature chemistry.chemical_element Industrial Waste Sorption General Medicine Mercury Hydrogen-Ion Concentration Wastewater Industrial waste Mercury (element) Water Purification Adsorption Desorption Environmental chemistry Freundlich equation Brazil Water Pollutants Chemical |
Zdroj: | Journal of environmental science and health. Part A, Toxic/hazardous substancesenvironmental engineering. 50(12) |
ISSN: | 1532-4117 |
Popis: | The objective of this study was to examine the ability of a solid waste produced during beneficiation of ornamental rocks to remove mercury (Hg) from an industrial effluent and aqueous solutions under various conditions. Batch studies have been carried out by observing the effects of pH, concentration of the adsorbate, contact time, and so on. Various sorption isotherm models such as Langmuir, Freundlich, and Toth have been applied for the adsorbent. Film and intraparticle diffusion were both found to be rate-limiting steps. Adsorption was properly described by the Freundlich model (capacity constant of 0.3090 (mg g(-1))(mg L(-1))(-1/n) and adsorption intensity indicator of 2.2939), which indicated a favorable sorption and encouraged subsequent studies for treatment of Hg-containing industrial effluent. Industrial effluent treatment efficiency reached Hg removals greater than 90% by using ornamental rock solid waste (ORSW). Besides, desorption studies indicated that the maximum recovery of mercury was 100 ± 2% for 1 mol L(-1) HNO3 and 74 ± 8% for 0.1 mol L(-1) HNO3. The ORSW could be reused thrice without significant difference on the Hg removal rate from industrial effluent. These findings place ORSW as a promising efficient and low-cost adsorbent for the removal of Hg from aqueous solutions and industrial effluent. |
Databáze: | OpenAIRE |
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