Project description
New tests to maintain drinking water quality
Climate change is having an impact on the quality of drinking water, and so is increased pollution. The revised EU Drinking Water Directive, which came into force in 2021, introduces new minimum requirements for the quality of potable water. While the directive promotes a risk assessment and risk management approach, this is challenged by insufficient information about elements of emerging concern, such as pesticides, pharmaceuticals, disinfection by-products, heavy metals and pathogenic microorganisms. In this context, the EU-funded ToDrinQ project will develop and test real-time water quality monitoring technologies and innovative treatment systems. It will also develop interoperable decision tools that support resilient, evidence-based treatment plant design and improved overall water system operational awareness and response.
Objective
The revised EU Drinking Water Directive promotes a risk assessment and risk management approach for securing drinking water supply in the context of climate change and increased pollution. However, this approach is challenged by insufficient information that is available to operators, especially in real time, on compounds and organisms of emerging concern, such as pesticides, pharmaceuticals, disinfection by-products, heavy metals and pathogenic micro-organisms. We argue that if drinking water treatment could leverage novel technologies and design philosophies, and more agile operational actions could be supported, drinking water supply systems could become more adaptable and robust without expensive infrastructural investments. In this context, ToDrinQ develops and tests a compendium of modular, complementary, innovative solutions (the ‘ToDrinQ Toolkit’) that provide new information and better support tools to operators and designers to adapt to (short- and long-term) changes in water quality, while obtaining high drinking water quality at the tap. ToDrinQ develops novel real time sensing and water quality monitoring technologies, innovative treatment systems (especially suitable for small-scale/modular, adaptable treatment plants) and interoperable decision tools that support resilient, evidence-based treatment plant design and improved overall water system operational awareness and response. The consortium is perfectly placed to achieve significant progress beyond the state of art, based on a research-technology alliance of leading universities and research institutes and innovative technology developers including deep tech SMEs. It is also ideally placed to maximise relevance and impact by grounding its innovations on diverse real-world cases through co-creation with five pro-active water companies (in the Netherlands, Greece, France, Switzerland, and the Czech Republic), and maximise outreach through the influential multi-stakeholder, network Water Europe.
Fields of science
- engineering and technologyenvironmental engineeringwater treatment processesdrinking water treatment processes
- natural sciencesearth and related environmental scienceshydrology
- social sciencessociologygovernancecrisis management
- natural sciencesearth and related environmental sciencesatmospheric sciencesclimatologyclimatic changes
- engineering and technologycivil engineeringwater engineeringwater supply systems
Keywords
Programme(s)
Funding Scheme
HORIZON-RIA - HORIZON Research and Innovation ActionsCoordinator
2628 CN Delft
Netherlands