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Název: Two-zone model application to breathing zone and area welding fume concentration data
Další názvová informace:
Překlad:
Autor: Boelter, Fred W.
Simmons, Catherine E.
Berman, Laurel
Scheff, Peter
Klíčové slovo: expozice
modely
svařování
plyny
Anotace: This study assessed a professional pipefitter/welder performing shielded metal arc welding on carbon steel under field conditions. The resulting breathing zone (near field) and area (far field) welding fume concentration data were applied to the two-zone model for the purpose of determining field-derived personal exposure emission (generation) rates during actual welding work. The study is unique in that one welder was evaluated under high production conditions for 2 days at two different welding locations: a boiler room and a breezeway. Samples were collected and analyzed for total particulate following NIOSH Method 0500 and for select metals following NIOSH Method 7300. Breezeway average personal breathing zone sample total particulate concentrations ranged from 2.89 mg/m3 to 4.38 mg/m(3), Fe concentrations ranged from 0.53 to 0.63 mg/m3, and Mn concentrations ranged from 0.10 to 0.12 mg/m3. The boiler room average personal breathing zone sample total particulate concentrations ranged from 4.73 mg/m3 to 5.90 mg/m3, Fe concentrations ranged from 0.48 to 0.85 mg/m3, and Mn concentrations ranged from 0.06 to 0.16 mg/m3. Average arc times ranged from 20 to 25% of the total sampling time. Both tracer gas and anemometer techniques were used to estimate ventilation of the boiler room. The steady-state form of the two-zone model was applied to long-term and short-term sample total particulate, Fe, and Mn concentrations obtained during welding in the boiler room and breezeway. The average generation rate in the boiler room was 39.2 mg/min for TP, 6.4 mg/min for Fe, and 1.3 mg/min for Mn. The average generation rate in the breezeway was 40.0 mg/min for TP, 6.6 mg/min for Fe, and 1.2 mg/min for Mn. The field-based generation rates were considerably lower than laboratory-derived published emission rates of between 280 and 650 mg/min for TP. This study emphasizes the need for field-derived welding fume generation rates and showed the personal breathing zone and area sample concentrations can be described by the two-zone model in a way that may help the industrial hygienist estimate exposures.
Jazyk dokumentu: eng
Název zdroje: Journal of Occupational and Environmental Hygiene
Ročník: 6
Číslo: 5
Rozsah (stránky): s. 298-306
Rok vydání: 2009
Publikováno na URL:
Připojené soubory: Soubory k článkutwo-zone model
Odborná knihovna VÚBP, Jeruzalémská 1283/9, 110 00 Praha 1, E-mail: knihovna@vubp.cz
Tento výsledek byl finančně podpořen z institucionální podpory na dlouhodobý koncepční rozvoj výzkumné organizace na léta 2018–2022 a je součástí výzkumného úkolu 05-S4-2021-VÚBP Zefektivnění vyhledávání v digitálním archivu BOZP Safe a propojení s Encyklopedií BOZP, řešeného Výzkumným ústavem bezpečnosti práce, v. v. i., v letech 2021–2022.
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