Ecological Safety of Construction and Municipal Economy
Original article
https://doi.org/10.24866/2227-6858/2022-1/94-103

 

Kirichenko K., Kholodov A., Gridasov A., Pogodaev A., Volkova V., Golokhvast K.

KONSTANTIN Yu. KIRICHENKO, Candidate of Biological Sciences, Leading Researcher;
Researcher of the Scientific and Organizational Department of the Far Eastern Federal University, kirichenko2012@gmail.com
IGOR A. VAKHNUK, Junior Researcher, vakhnuyk.ia@mail.ru
KIRILL S. GOLOKHVAST, Doctor of Biological Sciences, Corresponding Member of the Russian Academy of Education,
Professor of the Russian Academy of Sciences, Chief Researcher, droopy@mail.ru
Siberian Federal Scientific Center of Agrobiotechnology RAS
Krasnoobsk, Russia
ALEXEY S. KHOLODOV, Senior Researcher, alex.holodov@gmail.com
Far Eastern Institute of Geology FEB RAS
ALEXANDER V. GRIDASOV, Candidate of Engineering Sciences, Associate Professor, Deputy Vice-Rector, gridasov@dvfu.ru
ANTON V. POGODAEV, Senior Lecturer, pogodaev.av@dvfu.ru
Far Eastern Federal University
VLADISLAVA N. VOLKOVA, Postgraduate Student, Research Engineer of the Far Eastern Federal University, Leading Engineer of the Chief Technologist, vladavibi@bk.ru
Primorsky Vodokanal KSUE
Vladivostok, Russia

Study of the catching characteristics of the filtration elements of up-to-date respirators of protection classes FFP1 and FFP2 under the influence of welding aerosol

Abstract: The respirators has previously been widely used mostly by citizens of megapolises and of low- or middle-income countries to protect themselves from the air pollution. The detection of infectious respiratory aerosols of the same size as welding aerosols, combined with the disruption of the supply chain during the pandemic, highlights the need to develop material guidelines for face masks. Reusable sheet masks are environmentally friendly alternative to disposable ones. The article presents the study of the catching characteristics of the filter elements of up-to-date easily accessible models of respirators FFP1 and FFP2, exposed to welding aerosol containing suspended particles smaller than 10 µm (PM10). The purpose of the article is to provide evidence-based results for the selecting of suitable respirators. The high catching ability of respirators with multilayer protection, including those equipped with carbon filters, in relation to nano- and microparticles was revealed.

Keywords: welding aerosol, atmospheric suspension, welding, nano- and microparticles, respirators


See the reference in English at the end of the article


For citation: Kirichenko K., Kholodov A., Gridasov A., Pogodaev A., Volkova V., Golokhvast K. Study of the catching characteristics of the filtration elements of up-to-date respirators of protection classes FFP1 and FFP2 under the influence of welding aerosol. FEFU: School of Engineering Bulletin. 2022;(50):94-103. (In Russ.). https://doi.org/-10.24866/2227-6858/2022-1/94-103