饮水中除氡方法的比较研究

PHYSICS, TECHNOLOGIES AND INNOVATION (PTI-2019): Proceedings of the VI International Young Researchers’ Conference Pub Date : 2019-12-06 DOI:10.1063/1.5134210

V. Semenishchev, S. Glazyrin

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摘要

比较了各种消除饮用水中氡(222Rn)的方法。所有实验都是在氡含量接近100 Bq/L的天然地下水中进行的。以鼓泡法、加热法和沉降法为物理法，以理化法为不同类型活性炭的吸附法。结果表明，在物理方法中，空气鼓泡法是最有效的方法，在2 h和1 h内分别可达到99%和95%的氮去除率。活性炭对氡的吸附效果达到90%以上;额外消除短寿命衰变产物和防止氡向空气转移是物理化学方法的显著优点。比较了各种消除饮用水中氡(222Rn)的方法。所有实验都是在氡含量接近100 Bq/L的天然地下水中进行的。以鼓泡法、加热法和沉降法为物理法，以理化法为不同类型活性炭的吸附法。结果表明，在物理方法中，空气鼓泡法是最有效的方法，在2 h和1 h内分别可达到99%和95%的氮去除率。活性炭对氡的吸附效果达到90%以上;额外消除短寿命衰变产物和防止氡向空气转移是物理化学方法的显著优点。

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A comparative study of methods for radon elimination from drinking water

Various methods of radon (222Rn) elimination from drinking water are compared. All experiments were performed using natural underground water containing nearly 100 Bq/L of radon. Air bubbling, heating and settling were tested as physical methods, whereas adsorption on various types of activated carbons were tested as physicochemical methods. It was shown that air bubbling was the most effective methods among the physical ones: it provided 99 % of Rn elimination in 2 h and 95 % elimination in 1 h. Adsorption of radon by Carbotech activated carbon resulted in more than 90 % elimination of radon; additional elimination of short-lived decay products and prevention of radon transfer to air were significant advantages of the physicochemical methods.Various methods of radon (222Rn) elimination from drinking water are compared. All experiments were performed using natural underground water containing nearly 100 Bq/L of radon. Air bubbling, heating and settling were tested as physical methods, whereas adsorption on various types of activated carbons were tested as physicochemical methods. It was shown that air bubbling was the most effective methods among the physical ones: it provided 99 % of Rn elimination in 2 h and 95 % elimination in 1 h. Adsorption of radon by Carbotech activated carbon resulted in more than 90 % elimination of radon; additional elimination of short-lived decay products and prevention of radon transfer to air were significant advantages of the physicochemical methods.

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PHYSICS, TECHNOLOGIES AND INNOVATION (PTI-2019): Proceedings of the VI International Young Researchers’ Conference

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