Soft Ionization: Improving Indoor Air Quality

In this article we report two applications of a sub-category of air cleaning devices based on soft ionization that do not cause molecular fragmentation. A system that includes two unipolar ionizingmodules has been used to simultaneously produce positive and negative ions in the air. In one set of experiments a large chamber (28 m(3)) was used to study the effect of ions on reducing PM1.0 particles produced by a research grade calibrated cigarette. The data presented in this article were obtained using a carbon-brush-based bipolar ionizer and a MERV 10 filter with electret media in a recirculating HVAC system. Significant improvement in removal rate of fine and ultrafine particleswas achieved when using the bipolar ionizer in conjunction with the MERV 10 filter. The second set of experiments were conducted using a 36 m(3) chamber, following BSL-3 standards, to study the effect of ions on aerosolized SARS-CoV-2. Results of these investigations reveal the inactivation rate of SARS-CoV-2 are enhanced when ions are introduced in the air; inactivation rates were increased by more than 60% and 90% for ion densities of 10,000/cc and 18,000/cc.

Automated summary

This article reports two applications of a sub-category of air cleaning devices based on soft ionization. The experiments showed that using a bipolar ionizer in conjunction with a MERV 10 filter significantly improved the removal rate of fine and ultrafine particles. In addition, introducing ions into the air enhanced the inactivation rate of aerosolized SARS-CoV-2.