带水净化系统的用于雾霾和微生物防护的半户外无过滤器空气净化器。

Semi-outdoor filterless air purifier for smog and microbial protection with water purifier system.

机构信息

School of Medicine, Mae Fah Luang University, Chiang Rai, 57100, Thailand.

出版信息

Environ Res. 2021 Jun;197:111149. doi: 10.1016/j.envres.2021.111149. Epub 2021 Apr 14.

DOI:10.1016/j.envres.2021.111149

PMID:33844972

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9509289/

Abstract

PURPOSE

Air pollution and COVID-19 problems are being increasingly scrutinized. This article discusses the optimum design of an indoor and semi-outdoor air purifier, using a water-based filtration system.

METHODS

An air purifier was fabricated, then comparison of purifying efficacy of the system between untreated air and using an air pump was done. Incense smoke was generated within a room for 10 seconds. The number of particle sizes of PM0.3, PM0.5, PM1.0, PM3.0, PM5.0, and PM10 μm (particle/ m3) as well as the detection of mass concentration of PM1.0, PM2.5, PM5.0, and PM10 (mg/m3) at 0 and 5 min were recorded. Each experiment was repeated 10 times.

RESULTS

Particles in untreated air, except PM10, showed the maximum increase rate of the number of particle sizes greater than the air pump experiment. The highest differentiation between two methods was that PM1.0 and PM0.5 of untreated air increased to 113.647 and 61.539 % whereas the air pump method showed 4.720 and 2.533 %, respectively. The PM mass concentration of untreated air increased from 50.217 to 51.167 % while the increased rate of PM using an air pump was 2.784 to 2.902 %.

CONCLUSION

This study proposed a water-based air filtration technique, which can reduce the level of particulate matter, and also is a low-cost prototype. For the next experiment, the study should extend test length, clarify an optimum ratio of disinfectant technologies, connect with the internet of things, compare the efficiency with a HEPA filter air purifier, and then also measure some particles which are smaller than 0.2 μm.

摘要

目的

空气污染和 COVID-19 问题越来越受到关注。本文讨论了使用基于水的过滤系统对室内和半户外空气净化器进行优化设计。

方法

制作了空气净化器，然后比较了未处理空气和使用空气泵时系统的净化效果。在一个房间内点燃香薰 10 秒，记录 PM0.3、PM0.5、PM1.0、PM3.0、PM5.0 和 PM10μm（颗粒/立方米）的粒径数量以及 PM1.0、PM2.5、PM5.0 和 PM10（mg/m3）的质量浓度在 0 和 5 分钟时的检测结果。每个实验重复 10 次。

结果

未处理空气中的颗粒，除 PM10 外，粒径数量的最大增长率大于空气泵实验。两种方法之间的最大区别是，未处理空气中的 PM1.0 和 PM0.5 分别增加到 113.647%和 61.539%，而空气泵方法则分别增加到 4.720%和 2.533%。未处理空气中的 PM 质量浓度从 50.217%增加到 51.167%，而使用空气泵的增加率为 2.784%至 2.902%。

结论

本研究提出了一种基于水的空气过滤技术，可以降低颗粒物水平，并且是一种低成本的原型。在下一个实验中，研究应该延长测试长度，阐明消毒剂技术的最佳比例，与物联网连接，将其与 HEPA 空气净化器的效率进行比较，然后测量一些小于 0.2μm 的颗粒。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/600f/9509289/9b2f5f818a4d/gr1_lrg.jpg

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带水净化系统的用于雾霾和微生物防护的半户外无过滤器空气净化器。

Semi-outdoor filterless air purifier for smog and microbial protection with water purifier system.

机构信息

出版信息

PURPOSE

METHODS

RESULTS

CONCLUSION

目的

方法

结果

结论

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