@article{6eb4bfca33bb49998c2b2350c0d9f104,
title = "Emissions from 3D Printers as Occupational Environmental Pollutants",
abstract = "While many people work remotely during the pandemic, three-dimensional (3D) printers are working to ensure the medical personnel and general public with the necessary specific materials. Ease of use, low cost, fast prototyping, and a wide range of materials are the advantages of 3D technology that can quickly adapt to specific needs in different application areas and result in increased popularity. The aim was to analyse the concentrations of particulate matter (PM) and volatile organic compounds (VOCs) emitted in 3D printing zone where printers are located throughout the room around the perimeter and where orthopaedics and designers develop models during their full shift. The average ultrafine particles (UFP) concentration level fluctuates from 4×103 to 26×103 particles/cm3 that exceed the background level (<3×103 particles/cm3) during 8 h-shift. Microclimate was evaluated as unsatisfied regarding permissible values for air quality at workplaces: air temperature exceeds permissible upper level +25 °C, relative humidity was 21.5 % and air velocity ≤0.05 m/s. The highest particles{\textquoteright} number concentrations in the nano-scale range (<0.1 μm) and significantly higher mass concentrations in the coarse particle range (>2.5 μm) were detected. The median diameters of particle number (0.019, 0.014, 0.015 μm) and mass concentrations (4.394, 4.433, and 4.677 μm) were similar in all observed premises. Total VOC concentration was increased and specific substances such as toluene and formaldehyde (0.56±0.1 and 0.23±0.034 mg/m3) were found at high concentration in comparison with indoor air quality recommendations.",
keywords = "ELPI+, indoor air, inhaled particles, Occupational exposure, PM, P-track, Ultrafine particles, VOCs, 3D",
author = "Ilona Pavlovska and {\v Z}anna Martinsone and Aneka Kļaviņa and Lāsma Akūlova and Linda Paegle",
note = "Publisher Copyright: {\textcopyright} 2021 Ilona Pavlovska et al., published by Sciendo.",
year = "2021",
month = dec,
day = "4",
doi = "10.2478/rtuect-2021-0077",
language = "English",
volume = "25",
pages = "1018--1031",
journal = "Environmental and Climate Technologies",
issn = "1691-5208",
publisher = "Walter de Gruyter GmbH",
number = "1",
}