Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › Research › peer-review
Study of particulate emissions when using special wires for underwater welding. / Докучаев, Илья Игоревич; Голохваст, Кирилл; Чернышов, Владимир; Кириченко, Константин; Погодаев, Антон; Гридасов, Александр; Калинин, Юрий; Холодов, Алексей; Паршин, Сергей.
IX International Conference on Advanced Agritechnologies, Environmental Engineering and Sustainable Development (AGRITECH-IX 2023). Франция : EDP Sciences, 2024. 05001 (E3S Web of Conferences; Vol. 486).Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › Research › peer-review
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TY - GEN
T1 - Study of particulate emissions when using special wires for underwater welding
AU - Докучаев, Илья Игоревич
AU - Голохваст, Кирилл
AU - Чернышов, Владимир
AU - Кириченко, Константин
AU - Погодаев, Антон
AU - Гридасов, Александр
AU - Калинин, Юрий
AU - Холодов, Алексей
AU - Паршин, Сергей
N1 - Study of particulate emissions when using special wires for underwater welding 05001 Vladimir Chernousov, Konstantin Kirichenko, Anton Pogodaev, Alexander Gridasov, Yuri Kalinin, Alexey Kholodov, Sergey Parshin, Ilya Dokuchaev and Kirill Golokhvast Published online: 07 February 2024 DOI: https://doi.org/10.1051/e3sconf/202448605001
PY - 2024
Y1 - 2024
N2 - The article describes the study to evaluate the emissions to atmospheric air of airborne nano- and microparticles generated during underwater welding in seawater from Ajax Bay (Sea of Japan) using special wires and coated electrodes. The most commonly used underwater industrial production processes were selected: semi-automatic (mechanized) underwater welding with a welding wire, manual welding with electrodes, and semi-automatic (mechanized) underwater cutting with a welding wire for cutting. An aerosol particle counter was used to determine the mass concentration of fine aerosol particles in the air of the working area above the aquarium. The highest number of suspended particles in the atmospheric air was observed in the process of underwater welding with a welding electrode. Comparing the welding wire and the welding electrode for underwater welding, it can be concluded that the welding wire is less dangerous for people, which is confirmed by the lower amount of suspended particles emitted into the atmospheric air during its use.
AB - The article describes the study to evaluate the emissions to atmospheric air of airborne nano- and microparticles generated during underwater welding in seawater from Ajax Bay (Sea of Japan) using special wires and coated electrodes. The most commonly used underwater industrial production processes were selected: semi-automatic (mechanized) underwater welding with a welding wire, manual welding with electrodes, and semi-automatic (mechanized) underwater cutting with a welding wire for cutting. An aerosol particle counter was used to determine the mass concentration of fine aerosol particles in the air of the working area above the aquarium. The highest number of suspended particles in the atmospheric air was observed in the process of underwater welding with a welding electrode. Comparing the welding wire and the welding electrode for underwater welding, it can be concluded that the welding wire is less dangerous for people, which is confirmed by the lower amount of suspended particles emitted into the atmospheric air during its use.
UR - https://www.mendeley.com/catalogue/c08f2aed-2f92-3e8e-9485-2b167cd14978/
U2 - 10.1051/e3sconf/202448605001
DO - 10.1051/e3sconf/202448605001
M3 - Conference contribution
T3 - E3S Web of Conferences
BT - IX International Conference on Advanced Agritechnologies, Environmental Engineering and Sustainable Development (AGRITECH-IX 2023)
PB - EDP Sciences
CY - Франция
T2 - IX International Conference on Advanced Agritechnologies, Environmental Engineering and Sustainable Development (AGRITECH-IX 2023)
Y2 - 26 October 2023 through 3 November 2023
ER -
ID: 116861219