Shingo Sekoguchi, Kazunori Ikegami, Hajime Ando, Hidetaka Yoshitake, Hiroka Baba, Yo Ishigaki, Takashi Moritake, Toshihiko Myojo, Akira Ogami
Journal of UOEH 2022We manufactured a wearable particle monitor (WPM), which is a simple and low-cost dust monitor. We aimed to evaluate the usefulness of the device by using it and location information of a Global Navigation Satellite System (GNSS) to measure dust generation in outdoor workplaces. We used nine WPMs and a particle counter KC-52 to measure in parallel the dust concentration diffusing standard particles in a dust exposure apparatus to evaluate the measurability of the WPM, and visualized dust generation in outdoor workplaces to evaluate its usability. We obtained location information using a GNSS in parallel with measuring with the WPM. The measured values of the WPM followed the measured values of the KC-52, with a strong correlation of the values between the KC-52 and each WPM. The discrepancy among devices tended to increase, however, because the measured values of the WPMs increased. For outdoor measurements, we could create a heat map of the relative values of dust generation by combining two data of the WPM and the GNSS. The methods of using the WPM could overview the conditions needed to produce dust emissions in dust-generating workplaces.
Shingo Sekoguchi, Kazunori Ikegami, Hajime Ando, Hidetaka Yoshitake, Hiroka Baba, Yo Ishigaki, Takashi Moritake, Toshihiko Myojo, Akira Ogami. Visualization of Dust Generation in Outdoor Workplaces Using A Wearable Particle Monitor and Global Navigation Satellite System. Journal of UOEH. 2022;44(1):1-13
PMID: 35249934
View Full Text