Summary
Although the European freshwater system is monitored closely by different European frameworks, it has been demonstrated that organic chemical pollutants are still putting half of it at risk. The InnovEOX R&D training network was built to address and provide a solution for this considerable challenge: to boost innovative electrochemical wastewater treatment techniques to effectively degrade highly hazardous organic micro-pollutants, reducing environmental pollution and improving the European quality of life and health. By setting up a training frame to educate the next generation of highly-qualified ESRs in one of the most promising fields in micro-pollutant degradation, this will enable to generate important innovations, necessary to create a new level of EU excellence and reinforce EU R&D capacity in the field. The overall InnovEOX aim is to train 15 creative, entrepreneurial & innovative ESRs with high employability and career perspectives, capable of promoting new technologies in the industry and academic sector. The main InnovEOX R&D objectives are: 1) the exploration of alternative electrochemical oxidation pathways via generation of different oxidative radicals, 2) the development of combined photocatalytic/electrochemical oxidation techniques, 3) the development of novel analytical approaches for the separation and identification of these micro-pollutants and their degradation products, and 4) an assessment of the effects of the developed treatments on the aquatic toxicity, biological wastewater treatment and the environment as a whole via a life cycle assessment. These objectives combined will ensure a high-quality training with a high-societal impact for the reliable, economic and complete removal of priority pollutants from wastewater. Pushed by an interdisciplinary & intersectoral consortium of 10 leading beneficiaries and 7 partner organisations, the proposal will offer innovative training based on an optimal balance between research and formal training.
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More information & hyperlinks
Web resources: | https://cordis.europa.eu/project/id/861369 |
Start date: | 01-10-2019 |
End date: | 30-09-2023 |
Total budget - Public funding: | 3 992 303,16 Euro - 3 992 303,00 Euro |
Cordis data
Original description
Although the European freshwater system is monitored closely by different European frameworks, it has been demonstrated that organic chemical pollutants are still putting half of it at risk. The InnovEOX R&D training network was built to address and provide a solution for this considerable challenge: to boost innovative electrochemical wastewater treatment techniques to effectively degrade highly hazardous organic micro-pollutants, reducing environmental pollution and improving the European quality of life and health. By setting up a training frame to educate the next generation of highly-qualified ESRs in one of the most promising fields in micro-pollutant degradation, this will enable to generate important innovations, necessary to create a new level of EU excellence and reinforce EU R&D capacity in the field. The overall InnovEOX aim is to train 15 creative, entrepreneurial & innovative ESRs with high employability and career perspectives, capable of promoting new technologies in the industry and academic sector. The main InnovEOX R&D objectives are: 1) the exploration of alternative electrochemical oxidation pathways via generation of different oxidative radicals, 2) the development of combined photocatalytic/electrochemical oxidation techniques, 3) the development of novel analytical approaches for the separation and identification of these micro-pollutants and their degradation products, and 4) an assessment of the effects of the developed treatments on the aquatic toxicity, biological wastewater treatment and the environment as a whole via a life cycle assessment. These objectives combined will ensure a high-quality training with a high-societal impact for the reliable, economic and complete removal of priority pollutants from wastewater. Pushed by an interdisciplinary & intersectoral consortium of 10 leading beneficiaries and 7 partner organisations, the proposal will offer innovative training based on an optimal balance between research and formal training.Status
CLOSEDCall topic
MSCA-ITN-2019Update Date
28-04-2024
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