Searched for: author:"Gorce, J.P."
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Ruiter, S. (author), Kuijpers, E. (author), Saunders, J. (author), Snawder, J. (author), Warren, N. (author), Gorce, J.P. (author), Blom, M. (author), Krone, T. (author), Bard, D. (author), Pronk, A. (author), Cauda, E. (author)
Background: Small, lightweight, low-cost optical particulate matter (PM) monitors are becoming popular in the field of occupational exposure monitoring, because these devices allow for real-time static measurements to be collected at multiple locations throughout a work site as well as being used as wearables providing personal exposure...
article 2020
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Goede, H.A. (author), McNally, K. (author), Gorce, J.P. (author), Marquart, H. (author), Warren, N.D. (author), Fransman, W. (author), Tischer, M. (author), Schinkel, J. (author)
This article describes the development of a mechanistic model for underpinning the dermal Advanced REACH Tool (dART), an extension of the existing ART model and its software platform. It was developed for hand exposure to low volatile liquids (vapour pressure ≤ 10 Pa at 20°C) including solids-in-liquid products. The model is based on an existing...
article 2019
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McNally, K. (author), Gorce, J.P. (author), Goede, H.A. (author), Schinkel, J. (author), Warren, N. (author)
The dermal Advanced REACH Tool (dART) is a Tier 2 exposure modelling tool currently in development for estimating dermal exposure to the hands (mg min-1) for non-volatile liquid and solids-in-liquid products. The dART builds upon the existing ART framework and describes three mass transport processes [deposition (Dhands), direct emission and...
article 2019