Abstract
The Advanced REACH Tool (ART) is a mechanistic higher tier model to estimate inhalation exposure to chemicals using a Bayesian approach. Currently the ART model does not include exposure to welding fumes within its applicability domain; it has only been calibrated for vapours, mists, and dusts. To extend the scope to metal fumes it is necessary to review the model structure to ensure that it is appropriate, and to calibrate the updated model using available welding fume exposure measurements. This paper provides a discussion of the key modifying factors (MFs) that should be considered to extend the ART model to include welding fume exposure. Based on our literature review, welding process type, input power level, shield gas, and welding electrodes have important impact on fume formation rates (FFRs). In addition, the convective dispersion of the fume away from the weld and the interaction of the welder with the fume plume should be incorporated into the ART model. Other aspects of the ART, such as the local ventilation, do not require modification to accommodate welding fume exposure. The ART does not include the impact of wearing personal protective equipment and so this is not included in our evaluation. Proposals are made for extending the scope of the ART to include welding processes.
Highlights
Welding is one of the commonest activities carried out in the workplace, and the most popular method for joining metal materials together [1]
The key modifying factors specific to welding are related to fume formation rates (FFRs) and the convective airflows resulting in the dispersion of fumes from the source and the interaction of the welder with the fume plume
These aspects could be incorporated in the Advanced REACH Tool (ART) tool to extend the applicability domain; the remainder of the ART model is considered appropriate for welding fume exposure
Summary
Welding is one of the commonest activities carried out in the workplace, and the most popular method for joining metal materials together [1]. There are many risks to health related to welding, for example, electrical shock hazards, heat or fire risks along with risks from metal fume and gases, and ultraviolet (UV) radiation from the arc [7]. These hazards mean that, if preventive measures are not adequate, in welders a range of health problems are possible, from acute health effects such as irritation of the respiratory tract, to an increased risk of asthma, neurological damage, through to lung cancer [8]. It is estimated that each year there are 175 welders in Britain who die prematurely from lung cancer because of welding fume exposure [12]
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