Experimental study of aerosol behavior in ambient electric and magnetic fields at low indoor relative humidity

IF 1.9 4区 工程技术 Q3 ENGINEERING, ELECTRICAL & ELECTRONIC
John Voccio , Mansour Zenouzi , Andrew Seredinski , Ali Khabari , Scott Young , Terris Reddick , Andrew Lanzrath , Aiyana Weekes-Tulloch , Marcel Almonte , Jorgo Ruci , Priyansh Sharma
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Abstract

The tendency of aerosols to carry viral particles featured significantly in public discourse during the SARS Covid-19 pandemic. In this research, the potential significance of the aerosol electric charge, especially as it relates to indoor relative humidity (RH) is considered. While electrostatic interactions may occur at any level of humidity, the level of humidity has a strong influence on these interactions. Above 55 % RH, there is sufficient moisture in the air to facilitate neutralization of the electric charges of particles and surfaces, whereas, at lower humidity levels, less moisture and higher surface resistivities enable increasingly stronger electrostatic interactions. Experiments were designed and conducted to study the behavior of electrically charged aerosols in fields emanating from capacitive touchscreens and permanent magnets. These preliminary experimental results suggest that operating indoor environments closer to the 55–60 % RH range could reduce interactions between these charged aerosols and capacitive touchscreens. This relative humidity range is within the acceptable ranges of humidity recommended by ASHRAE standard 55 which defines thermal environmental conditions for human occupancy.

低室内相对湿度环境电场和磁场中气溶胶行为的实验研究
在 SARS Covid-19 大流行期间,气溶胶携带病毒颗粒的趋势在公众讨论中占有重要地位。本研究考虑了气溶胶电荷的潜在意义,特别是它与室内相对湿度(RH)的关系。虽然静电相互作用可能发生在任何湿度水平,但湿度水平对这些相互作用有很大影响。相对湿度超过 55% 时,空气中的湿度足以促进颗粒和表面电荷的中和,而湿度较低时,湿度较小,表面电阻率较高,静电相互作用会越来越强。我们设计并进行了实验,研究带电气溶胶在电容式触摸屏和永久磁铁产生的场中的行为。这些初步实验结果表明,室内环境的相对湿度接近 55-60% 的范围,可以减少这些带电气溶胶与电容式触摸屏之间的相互作用。这个相对湿度范围在 ASHRAE 标准 55 建议的可接受湿度范围内,该标准定义了人类居住的热环境条件。
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来源期刊
Journal of Electrostatics
Journal of Electrostatics 工程技术-工程:电子与电气
CiteScore
4.00
自引率
11.10%
发文量
81
审稿时长
49 days
期刊介绍: The Journal of Electrostatics is the leading forum for publishing research findings that advance knowledge in the field of electrostatics. We invite submissions in the following areas: Electrostatic charge separation processes. Electrostatic manipulation of particles, droplets, and biological cells. Electrostatically driven or controlled fluid flow. Electrostatics in the gas phase.
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