Arsenic is a priority contaminant that enters drinking water through both natural and man-made processes, posing a risk to human health and leading to the development of a variety of illnesses. Since millions of people are exposed to drinking water with a concentration of this pollution that is higher than allowed levels, its removal has become a crucial issue, and this removal is accomplished using a variety of techniques. In this study, the removal of arsenic using two membrane processes-nanofiltration (NF) and reverse osmosis (RO) has been specially investigated in light of the outstanding removal efficiency of arsenic through membrane processes. Arsenic in drinking water must be removed using the right techniques to comply with world health organization (WHO) guidelines. According to the findings of several studies, NF membranes can remove significant amounts of heavy metals, such as arsenic, at low pressures while still producing high-quality water, which lowers operating costs. RO membranes are regarded as yet another efficient membrane technology for eliminating both types of arsenic throughout a wide pH and pressure range. Although the likelihood of membrane clogging can be considered as a restriction in these processes, given the possibility of its modification through the use of proper pre-treatment and also taking into consideration benefits such as the lack of need for chemicals, the absence of sludge production, removal effectiveness up to the WHO standard limit, and the removal of a wide variety of contaminants, they are preferred compared to other techniques in as much as they have the potential to become the most effective method of removal.
Keywords: Heavy metals; Nanofiltration; Potable water; Removal technology; Reverse osmosis.
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