An Efficient Reactor for Purification of Domestic Water Using Solar Energy

I. Kottegoda, Sujith Kohobhange, H.C.D.P. Colomboge, D. Samarawickrama, C. H. Manorathne
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引用次数: 3

Abstract

Contamination of water due to various organic substances such as bacteria, pesticides causes serious health issues. A reactor system was fabricated utilizing renewable solar energy for purification of pollutants dissolved in drinking water. A novel glass tube based prototype reactor was constructed by coating nano-titanium dioxide (TiO2) inside the glass tubes. The Nano-TiO2 was deposited on the bottom surface of the clear glass tubes and is connected in parallel increasing the surface area. For highly contaminated water, increased number of connected tubes and/or several reactors and/or slow flow rate of water are possible. In the present study single reactor module was used for convenience. The reactor was exposed to sunlight and the contaminated water was passed through the reactor. The photocatalytic activity including antibacterial activity was tested using Methylene blue and the bacterial culture, Escherichia coli. The reactor system is found to be effective in decontaminating the tested organic entities. The reactor module can be used to purify water for drinking purpose and can be fixed on top of roofs for exposure to sunlight. KeywordsSolar Energy; Titanium Dioxide; Photocatalyst
一种高效的太阳能净化生活用水反应器
由于细菌、杀虫剂等各种有机物质污染的水会导致严重的健康问题。利用可再生太阳能制造了一个反应器系统,用于净化饮用水中溶解的污染物。通过在玻璃管内涂覆纳米二氧化钛(TiO2),构建了一种新型的基于玻璃管的原型反应器。纳米tio2沉积在透明玻璃管的底表面,并平行连接,增加了表面积。对于高污染的水,可以增加连接管的数量和/或几个反应器和/或减慢水的流速。为方便起见,本研究采用单反应器模块。反应堆暴露在阳光下,受污染的水通过反应堆。用亚甲基蓝和细菌培养物大肠杆菌检测了其光催化活性和抗菌活性。实验结果表明,该反应器系统能有效地去除被测有机污染物。该反应器模块可用于饮用水净化,并可固定在屋顶上,以便暴露在阳光下。KeywordsSolar能量;二氧化钛;光催化剂
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