TOX-TRAIN is a 4-year project and its main objective is the development and implementation of a tool box to assess toxicological impacts related to the life-cycle of technologies. The USEtox model, developed under UNEP-SETAC auspices with contributions of the partners in this consortium, will be taken as a starting point. First, TOX-TRAIN will develop and implement estimation tools for emissions and chemical properties to USEtox for a number of compound groups, including ionic and amphiphilic substances, persistent bioaccumulating chemicals or metabolites, pesticides and biocides, substituted musks/fragrances, and metals, with a specific focus on assessing various types of uncertainty in emissions and properties. The compound groups are selected on the basis of use volumes, fate pattern complexity and main emission route relevance. The tools will be developed as open-source software. Second, the USEtox model will be extended with an indoor compartment model for typical exposure situations in working place and household settings as well as direct consumer exposure through a product (e.g. a directly applied cosmetic product). Third, a number of case studies will be performed in close collaboration between the commercial and non-commercial partners of TOX-TRAIN to test the USEtox tool box in practice. Finally, dissemination of the tool box will be done by a portfolio of actions, such as workshops, course developments, training of specific user groups, documentation material, and a user-friendly web-based implementation. In short, TOX-TRAIN will provide an excellent platform to enhance the transfer of knowledge between the commercial and non-commercial sector in the area of toxic life-cycle impact assessment of technologies. It is envisaged that the developed USEtox tool box has a great market potential as it can be directly used in the daily practice of life cycle assessment studies.
|Period||01-11-11 → 31-10-15|
- Modelling (Environmental risks), Life Cycle Impact Assessment, Chemical emission-fate-exposure-effects modelling, Intake Fraction, Indoor emissions/exposure, USEtox model, Consumer/Worker exposure