AI Article Synopsis
- Mass concentration alone is not enough to evaluate the health risks of particulate matter (PM), as smaller particles can be more harmful than larger ones at the same mass level.
- The study introduces the Sauter mean diameter (SMD) as a more effective measure for particle size in addition to mass concentration, using a new optical sensing method.
- The prototype sensor showed promising accuracy in measuring SMD for aerosols, with an error margin of only 7.04%, highlighting its potential for cost-effective and widespread PM monitoring.
Article Abstract
Mass concentration is a commonly used but insufficient metric to evaluate the particulate matter (PM) exposure hazard. Recent studies have declared that small particles have more serious impacts on human health than big particles given the same mass concentration. However, state-of-the-art PM sensors cannot provide explicit information of the particle size for further analysis. In this work, we adopt Sauter mean diameter (SMD) as a key metric to reflect the particle size besides the mass concentration. To measure SMD, an effective optical sensing method and a proof-of-concept prototype sensor are proposed by using dual wavelengths technology. In the proposed method, a non-linear conversion model is developed to improve the SMD measurement accuracy for aerosol samples of different particle size distributions and reflective indices based on multiple scattering channels. In the experiment of Di-Ethyl-Hexyl-Sebacate (DEHS) aerosols, the outputs of our prototype sensor demonstrated a good agreement with existing laboratory reference instruments with maximum SMD measurement error down to 7.04%. Furthermore, the simplicity, feasibility and low-cost features of this new method present great potential for distributed PM monitoring, to support sophisticated human exposure hazard assessment.
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|---|---|
| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC9312855 | PMC |
| http://dx.doi.org/10.3390/bios12070436 | DOI Listing |
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