Experimental Investigation of a MopFan-Based Photocatalytic Air Purification Device

Q1 Engineering

Future Cities and Environment Pub Date : 2022-01-01 DOI:10.5334/fce.149

Emmanuel Tapia-Brito, James Riffat, Yixin Wang, A. Ghaemmaghami, C. M. Coleman, S. Riffat

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引用次数: 1

Abstract

Photocatalytic oxidation (PCO) is a potential approach for air cleaning, especially when utilising titanium dioxide (TiO2). A MopFan is similar to a roller brush but is made of flexible fibres coated with TiO2. Unlike conventional filter/mesh UV systems, a MopFan provides a wide UV-TiO2 interaction surface area and airflow passage. This revolutionary technique can be low cost, efficient, and potentially effective against viruses, making it suitable for cleaning indoor air. It is easy to use but technically advanced. The system may be mounted on walls, floors, or placed on desktops. A photocatalytic air purification based on MopFan prototype was designed, constructed and tested. This study utilised copper wires (0.1 mm, 0.3 mm, 0.4 mm, and 0.5 mm), plastic fibres (0.5 mm and 1.1 mm), brass wire (0.4 mm), steel wire (0.38 mm), and organic “coco” fibres (0.4 mm). Copper wire (0.5 mm) and organic fibre (0.4 mm) were found to be effective against SARS-CoV-2, but brass (0.4 mm) and plastic (0.5 mm) fibres were found only partially effective. The purification performance was compared using MopFan with plastic (0.5 mm), brass (0.4 mm) and organic “coco” (0.4 mm) fibres but the other materials were rejected due to their poor qualities or difficulties in manufacturing. It was found that the system has a better effectiveness with organic fibres, around 21% of reduction consistently throughout the test. It was also found that by using the photocatalytic MopFan air cleaning system, the final concentration of pollutants in a room is determined by the rate and concentration of pollutant generation. Highlights 1. Organic fibres do not require sanding prior to being coated with TiO2 solution. 2. Copper and organic fibres are effective SARS-CoV-2 inhibitors. 3. Organic fibres are the most efficient for air purification. 4. The performance of purification is related to the concentration of pollutants. © 2022 The Author(s).

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基于mopfan的光催化空气净化装置的实验研究

光催化氧化(PCO)是一种潜在的空气净化方法，特别是当使用二氧化钛(TiO2)时。MopFan类似于滚筒刷，但由涂有二氧化钛的柔性纤维制成。与传统的过滤器/网状UV系统不同，MopFan提供了广泛的UV- tio2相互作用表面积和气流通道。这种革命性的技术成本低、效率高，而且可能对病毒有效，因此适用于净化室内空气。它很容易使用，但技术先进。系统可以安装在墙上、地板上，也可以放在桌面上。设计、制造并测试了基于MopFan的光催化空气净化样机。这项研究使用了铜线(0.1毫米、0.3毫米、0.4毫米和0.5毫米)、塑料纤维(0.5毫米和1.1毫米)、黄铜丝(0.4毫米)、钢丝(0.38毫米)和有机“可可”纤维(0.4毫米)。铜线(0.5毫米)和有机纤维(0.4毫米)对SARS-CoV-2有效，但黄铜(0.4毫米)和塑料(0.5毫米)纤维仅部分有效。将MopFan与塑料(0.5 mm)、黄铜(0.4 mm)和有机“可可”(0.4 mm)纤维的净化性能进行了比较，但其他材料由于质量差或制造困难而被拒绝。结果发现，该系统在处理有机纤维方面具有更好的效果，在整个测试过程中始终如一地减少了约21%的碳排放量。还发现，使用光催化MopFan空气净化系统，室内污染物的最终浓度是由污染物产生的速率和浓度决定的。亮点1。有机纤维在涂覆二氧化钛溶液之前不需要打磨。2. 铜和有机纤维是有效的SARS-CoV-2抑制剂。3.有机纤维净化空气的效率最高。4. 净化性能与污染物浓度有关。©2022作者。

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来源期刊

Future Cities and Environment Engineering-Architecture

CiteScore

3.10

自引率

0.00%

发文量

审稿时长

17 weeks