Unipolar ion emission enhances respiratory protection against fine and ultrafine particles
- 作者:Uk Lee ; Byung ; Yermakov ; Mikhail ; Grinshpun ; Sergey A.
- 关键词:Filter ; Respiratory protection ; Mask ; Particle charge ; Ion emission
- 刊名:Journal of Aerosol Science
- 出版年:2004
- 期刊代码:45_00218502
- 类别:ce
- 出版时间:November, 2004
- 卷:35
- 期:11
- 页码:1359-1368
- 文件大小:239 K
摘要
We developed a novel concept that allows to considerably improve the performance of conventionally used filtering-facepiece respirators against fine and ultrafine aerosols including airborne viral and bacterial agents. The concept is based on the continuous emission of unipolar ions. The effect was evaluated through the real-time monitoring of the concentration and size distribution of fine and ultrafine aerosol particles. The measurements were conducted inside and outside of a respiratory mask that was face sealed on a breathing manikin. A commonly used Type N95 respirator and surgical mask were utilized for the tests. The manikin was placed in a 24.3-m3 indoor test chamber and exposed to polydisperse surrogate aerosols simulating viral and bacterial particles with respect to the aerodynamic size. The particle penetration through the mask was found to decrease by one-to-two orders of magnitude as a result of continuous unipolar ion emission in the chamber. The flux of air ions migrated to the breathing zone and imparted electrical charges of the same polarity to the aerosol particles and the respirator filter surface. This created an electrostatic shield along the external surface of the filter, thus enhancing the protection characteristics provided by the respirator. The above performance enhancement effect is crucial for minimizing the infectious risk in the cases when the conventional filtering-facepiece respirators are not able to provide an adequate protection against airborne viruses and bacteria.