Defluoridation of drinking water by using low cost point of use treatment technologies: A review

Sadaf Tagar, Muhammad Rizwan, N. A. Qambrani
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Abstract

Fluoride is an anionic pollutant found in surface or ground water in large quantities due to various human activities, for examples, disposal of industrial wastewater or geochemical reactions. The presence of fluoride in drinking water above certain limits has intense effects on human health. It strengthens the tooth enamel to a small level (1.0-1.5 mg/L). In drinking water, the presence of fluoride in the range of 1.5 to 4.0 mg/L may give rise to dental fluorosis at initial the stage, while the continuous exposure to high fluoride concentrations (4.0-10.0 mg/L) leads to skeletal fluorosis. In many countries of the world, including Pakistan, fluoride exists in ground water in high concentration, reaching above 30.0 mg/L on a large scale. The objective of writing this article is to offer accurate information on the efforts of a number of scholars who worked on fluoride removal from drinking water. The fluoride removal techniques have been categorized into two parts dealing with coagulation/precipitation and adsorption. Lime and alum (Nalgonda technique) and chitin have been discussed under coagulation technologies, while adsorption deals with a number of adsorbents, i.e., activated carbon, activated alumina, saw dust, bone char, rice husk ash, bauxite, tea-ash, and kaolin. Each technique discussed can remove fluoride under certain conditions. Each treatment technology has its limitations, and since there is no technology that can achieve its purpose in diverse conditions, the choice of fluoride removal techniques should be according to a specific site, depending on fundamental conditions and the needs of the local area.
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利用低成本的使用点处理技术对饮用水进行脱氟处理:综述
氟是一种阴离子污染物,由于人类的各种活动,例如工业废水的处理或地球化学反应,大量存在于地表水或地下水中。饮用水中的氟含量超过一定限度会对人体健康产生严重影响。它能在很小程度上(1.0-1.5 毫克/升)强化牙釉质。饮用水中的氟含量在 1.5 至 4.0 毫克/升之间时,可能会导致初期氟斑牙,而持续接触高浓度氟(4.0-10.0 毫克/升)则会导致氟骨症。在包括巴基斯坦在内的世界许多国家,地下水中的氟浓度都很高,大范围超过 30.0 毫克/升。撰写这篇文章的目的是提供准确的信息,介绍一些致力于从饮用水中去除氟化物的学者所做的努力。除氟技术分为混凝/沉淀和吸附两部分。混凝技术中讨论了石灰和明矾(纳尔贡达技术)以及甲壳素,而吸附技术则涉及多种吸附剂,即活性炭、活性氧化铝、锯末、骨炭、稻壳灰、铝矾土、茶叶灰和高岭土。所讨论的每种技术都能在特定条件下去除氟化物。每种处理技术都有其局限性,由于没有一种技术可以在各种条件下都能达到目的,因此应根据具体地点的基本条件和当地的需要来选择除氟技术。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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