| International Journal of Occupational Hygiene | 卷:10 |
| Evaluation of Ventilation Performance Parameters for an On-Gun Welding Prototype | |
| PARVIN MORIDI1 ALIREZA ALIPOOR2 MITRA RASHIDI3 RASOUL YARAHMADI4 | |
| [1] Air Pollution Research Core, Pars Plasma Bonyan (knowledge based Co), Tehran, Iran.; | |
| [2] Assistant Professor of Mechanical Engineering, Sahid Chamran Ahvaz University, Ahvaz, Iran; | |
| [3] M.Sc. Student, in Occupational Health, Tehran University of Medical Sciences, Tehran, Iran; | |
| [4] Occupational Health Research Center, Department of Occupational Health, School of public Health, Iran University of medical sciences, Tehran, Iran; | |
| 关键词: Exhaust hood; Fume exhaust gun; Industrial ventilation; on gun welding; welding fume; | |
| DOI : | |
| 来源: DOAJ | |
【 摘 要 】
Reported exposures to hazardous fumes and gases from the welding process indicate the importance of using effective ventilation systems to control these emissions. This study was designated to control the welding contaminants and to utilize the performance of a prototype on-gun system in bench scale. The study evaluated ventilation parameters including exhaust flow rate, capture velocity, and lastly, duct and face velocities for the system of interest. Hood operation was tested at 34.06 standard cubic feet per minute (SCFM). ISO 10882-1 (part 1) method, the gravimetric method, was used to determine the total particle concentration and hood efficiency. The study found that, in general, when the hood face was located at 2 cm from the gas nozzle, capture velocity in arc point reached 140 fpm. By increasing the distance to 4-6 cm, the capture velocity decreased to 100 and 60 fpm, respectively. We concluded that the distance of the hood face from nozzle had a direct effect on capture efficiency. The evaluated hood could reduce exposure risk of welding fumes with a capture efficiency of 77.73% in the hood distance of 2 cm from the nozzle.
【 授权许可】
Unknown
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