Abstract
Arsenic is a carcinogenic element capable to get into water bodies and drinking water supplies from natural deposits and industrial practices. Its presence in drinking underground water is highly toxic to human health. The study is focused on the development of indigenous Iron-Coated Pottery Granules (ICPG) to remove As from groundwater of Hala City. The developed ICPG was agitated with local clay white flour and water. A low-cost adsorbent namely ICPG was synthesized for the expulsion of As from underground water. The ICGP was characterized with SEM and FTIR techniques. Furthermore, the impact of physical parameters including adsorbate concentration, dosage, mixing time, pH, and contact time on As removal efficiency was investigated in batch experiments. The maximum removal efficiency was achieved with an adsorbent dosage of 0.5 grams at pH =7 for a contact time of 90 minutes when agitated at a speed of 150 r/min. The arsenic removal efficiency was found highly dependent on contact time increase and optimum pH (maximum removal achieved at strong adsorption of As at pH 4–7), however, the rise of adsorbate concentration resulted in the decrement in the efficiency after certain range. Batch adsorption study of underground water sample collected from Hala, Sindh, Pakistan was performed with satisfactory results, i.e. 94 arsenic removal from water. All the water samples were analyzed through atomic absorption Spectrophotometer. The investigation has indicated that ICPG is an exceptionally favourable material for As removal from drinking underground water and can be applied to handle the arsenic issue in most of the regions of Sindh province.
Highlights
Arsenic is a lethal and cancer-causing element and WHO has considered it a priority issue among the poisonous substances [1]
Anthropogenic and industrial activities including mining, combustion of fossil fuels, agriculture and industrial waste discharges contribute to arsenic contamination in potable water
Filtration, precipitation and co-precipitation are three basic mechanisms employed for the removal of As from water through coagulation process [7][8]
Summary
Arsenic is a lethal and cancer-causing element and WHO has considered it a priority issue among the poisonous substances [1]. Mining and industrial activities contribute in receiving As in different regions [2]. Anthropogenic and industrial activities including mining, combustion of fossil fuels, agriculture and industrial waste discharges contribute to arsenic contamination in potable water. Coagulation, Sorptive media filtration and adsorption are the most efficient technologies adopted to eliminate As from drinking water sources [4][5]. Adsorption is one of the economical and applicable techniques [6]. Filtration, precipitation and co-precipitation are three basic mechanisms employed for the removal of As from water through coagulation process [7][8]. Iron-coated pottery granules (IGPC) based method has been described for As expulsion
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
