Development and evaluation of an autonomous and portable solar water disinfection reactor based on TiO2 supported films

International Workshop on Thin Films for Electronics, Electro-Optics, Energy and Sensors Pub Date : 2023-01-31 DOI:10.1117/12.2647950

E. Carpio, S. Ponce, Juan M. Rodriguez

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Abstract

The lack of drinkable water in rural areas or in places affected by natural disasters, motivated us to develop an efficient way to obtain drinking water. In this work we will present the development of an autonomous and portable water purification plant, based on a supported TiO2 film reactor, to promote the photocatalytic disinfection of bacteria in water. It is concluded that the supported TiO2 film onto a polyethylene based reactor shows good photocatalytic disinfect water under laboratory conditions and land field experiments. At the laboratory, up to 6 orders of magnitude of E-coli were reduced in less than 30 min, whereas under real conditions, water contaminated with 3480 CFU/100 mL of wild bacteria colonies, the disinfection was reached in less than 15 min. This System could be used in places in which safe drinking water is not available, like in rural areas, or under situations in which access to water through centralized public services are temporarily suspended, as for example after a natural disaster.

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基于TiO2负载膜的自主便携式太阳能水消毒反应器的研制与评价

农村地区和受自然灾害影响的地区缺乏饮用水，促使我们开发一种有效的获取饮用水的方法。在这项工作中，我们将介绍一种基于负载型TiO2膜反应器的自主便携式水净化装置的开发，以促进水中细菌的光催化消毒。实验结果表明，在聚乙烯基反应器上负载TiO2膜具有良好的光催化消毒水性能。实验室,6数量级减少大肠杆菌在不到30分钟,而在实际情况下,污染的水3480 CFU / 100毫升的野生细菌菌落,不到15分钟的消毒了。该系统可用于地方安全的饮用水是不可用的,像在农村地区,或在水的情况下通过集中的公共服务是暂停的,例如自然灾害。

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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International Workshop on Thin Films for Electronics, Electro-Optics, Energy and Sensors

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