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Fluoride Removal From Aqueous Solution by Almond Shell Activated Carbon



Akbari H1 ; Balarak D2 ; Yousefi M1 ; Rigi P3 ; Mahvi AH4, 5
Authors
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Authors Affiliations
  1. 1. Department of Environmental Health Engineering, Mamasani Education Complex for Health, Shiraz University of Medical Sciences, Shiraz, Iran
  2. 2. Health Promotion Research Centre and Department of Environmental Health Engineering, School of Public Health, Zahedan University of Medical Sciences, Zahedan, Iran
  3. 3. Student Research Committee, Zahedan University of Medical Sciences, School of Public Health, Department of Environmental Health Engineering, Zahedan, Iran
  4. 4. Department of Environmental Health Engineering, School of Public Health, Tehran University of Medical Sciences, Tehran, Iran
  5. 5. Center for Solid Waste Research, Institute for Environmental Research, Tehran University of Medical Sciences, Tehran, Iran

Source: Fluoride Published:2021

Abstract

Fluoride (F-), the ion of the element fluorine, is one of the mineral elements present in nature that enters drinking water through underground aquifers and when present in high concentration it can lead to risks such as skeletal, dental, and non-skeletal fluorosis with morbidity such as decreased IQ and negative effects on brain development, tooth discolouration, and bone pain. The aim of the study, was to study the ability of activated carbon developed from almond shell (ACAS), to remove fluoride from an aqueous solution. We examined the effects on fluoride removal efficiency of contact time, initial F- concentration, pH, and ACAS mass. The equilibrium data were also examined with models including the Langmuir, Freundlich, and Temkin isotherms. The removal characteristics were validated through the use of different kinetic models for the estimation of the solute interaction and the nature of the biosorption. A contact time of 60 min, an adsorbent dosage of 0.6 g/L, and a pH of 3 were considered to be the optimal operational conditions. The biosorption of F- onto ACAS and the equilibrium data follow from the Langmuir adsorption isotherm with a maximum adsorption of 84.3 mg/g and a regression coefficient of R2 =0.999. The kinetic studies showed that the system fitted the pseudo-second order kinetic model. Thus, this work gives new insights on the interaction of ACAS with F- in a reconstituted aqueous solution. © 2021, ISFR, www.fluorideresearch.online, Dunedin, New Zealand.
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