Use of Zircon in the Physicochemical Process of Defluorination of Hyperfluorinated Brackish Water from the Diouroup Borehole (Senegal)

Science Journal of Chemistry Pub Date : 2024-07-02 DOI:10.11648/j.sjc.20241204.11

Alioune Ly, A. Coly, Ndiouga Camara, Baba Ngom, D. Gassama, S. Tamba

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Abstract

In phosphate-producing countries (United States, Commonwealth of Independent States, North and West Africa including Senegal), the presence of phosphate ores (hydroxyapatite) is often associated with that of fluorine ores (fluoro apatite). In these regions, water from confined aquifers may have excessive fluoride contents. While the potability standards in tropical climates are 0.7 mg/L at a temperature of 25°C In the central zone of Senegal, hyperfluorinated brackish water constitutes a public health problem. It is in this context that it was decided to make our contribution to the purification of drinking water in this area. In our study, we used as an element in the physicochemical defluorination process. The results obtained, by this physicochemical treatment by filtration on the zircon column, showed overall a reduction in fluoride contents of 67.55% (i.e. from 6.41 mg/L to 2.08 mg/L) in chlorides of 10.44%. We can therefore affirm that zircon can be used for the defluorination of hyperfluorinated brackish waters. However, these results can be improved by lowering the pH of the water before treatment and increasing the retention time.

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在对来自 Diouroup 井眼的高氟咸水进行脱氟的物理化学过程中使用锆石（塞内加尔）

在磷酸盐生产国（美国、独立国家联合体、北非和西非，包括塞内加尔），磷矿石（羟基磷灰石）的存在往往与氟矿石（氟磷灰石）的存在有关。在这些地区，封闭含水层中的水可能含氟量过高。在塞内加尔中部地区，高氟咸水已成为一个公共卫生问题。因此，我们决定为该地区的饮用水净化做出贡献。在研究中，我们使用了物理化学脱氟工艺中的一种元素。通过在锆石柱上进行过滤的物理化学处理所获得的结果显示，氟化物含量总体减少了 67.55%（即从 6.41 毫克/升减少到 2.08 毫克/升），氯化物减少了 10.44%。因此，我们可以肯定，锆石可用于高氟咸水的脱氟。不过，如果在处理前降低水的 pH 值并延长停留时间，这些结果还可以得到改善。

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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Science Journal of Chemistry

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