ALICE (AcceLerate Innovation in urban wastewater management for Climate changE) project is focused on the serious risk posed by the uncertainty of the extent of climate change for the effectiveness of wastewater management. The coming decades are likely to see some geographical areas experiencing a higher risk of flooding and other areas exposed to higher risks of droughts. Both risks are associated with potentially huge economic costs. Higher precipitation, more frequent storms, and earlier melt of ice will lead to more untreated sewer overflow and will require sewer water management to adapt. Better quality of effluent will generate a higher energy demand for a sector that is already a major contributor to the carbon footprint. Severe droughts have been registered in the last decades, with the most severe effects in Mediterranean Countries. Water reuse has been identified as an alternative to water supply with untapped potential for the EU that needs to be enhanced. Addressing climate challenges will require a change in the governance of cities and public utilities in order to protect the wider environment and ensuring cities’ resilience against extreme events.
The challenges facing society in urban wastewater management cannot be solved by any one sector alone. ALICE will accelerate innovation by bringing together and exchanging knowledge between the key players who can, together, address the future techno-economic, governance, and societal challenges arising from climate change. The results will 1) benefit water utilities, 2) support political and managerial decisions in wastewater, 3) benefit wastewater equipment manufacturers, identifying new market opportunities in the EU, 4) benefit EU citizens from the improved wastewater infrastructure, the environment, and job creations.
Within this framework, the main research objectives of ALICE are to:
- OB1. improve the urban resilience of wastewater infrastructures;
- OB2. investigate the wastewater and energy nexus in wastewater treatment plants to reduce their carbon footprint, adopting a holistic approach to resource efficiency;
- OB3. enhance the reuse of reclaimed wastewater and resource recovery, exploring the leading-edge technologies of urban WW treatment to broaden its dimension in Europe;
- OB4. investigate the social behavior and acceptability issues in the development of innovative management systems for urban wastewater.