Summary
The overall aim of the SPRING project is to present an integrated water resource management for reliable water supply for all needs that involve; developing innovative simple to operate bio oxidation systems for treatment of polluted water bodies (stagnant and flowing), cost effective real time monitoring tools and finally by implementing good practices in water planning for treatment, supply and usage. SPRING aims at improving and developing technologies for the elimination of pollutants from water using a bioremediation approach.
In particular, SPRING aims at improving and developing bioremediation technologies for the removal of organic micro-pollutants present in groundwater and surface water at low concentrations, and which are currently treated using expensive physicochemical technology. Innovation also revolves around provision of simplified water quality monitoring methods and developing novel microbial technology to monitor pollutants in water. The Project will also develop real time detection systems to highlight different pollutants risks and flooding/water insufficiency scenarios.
Field trials of the developed prototype in urban and rural settings will be carried out with the help of Municipality and an NGO.
In addition, an inclusive decision-making process will contribute to democracy and will lend the decision legitimacy. Acceptance of remediation schemes during implementation will be enhanced by involving stakeholders and the public in the decision-making stage and thus, stakeholders decision making and management framework in the form of an NGO and a local Governing Body (Municipality) will be formed. Successful implementation and demonstration of the developed systems involving all stakeholders will help to achieve wide public acceptance towards reuse and recycling of wastewater through the developed bioremediation technology
In particular, SPRING aims at improving and developing bioremediation technologies for the removal of organic micro-pollutants present in groundwater and surface water at low concentrations, and which are currently treated using expensive physicochemical technology. Innovation also revolves around provision of simplified water quality monitoring methods and developing novel microbial technology to monitor pollutants in water. The Project will also develop real time detection systems to highlight different pollutants risks and flooding/water insufficiency scenarios.
Field trials of the developed prototype in urban and rural settings will be carried out with the help of Municipality and an NGO.
In addition, an inclusive decision-making process will contribute to democracy and will lend the decision legitimacy. Acceptance of remediation schemes during implementation will be enhanced by involving stakeholders and the public in the decision-making stage and thus, stakeholders decision making and management framework in the form of an NGO and a local Governing Body (Municipality) will be formed. Successful implementation and demonstration of the developed systems involving all stakeholders will help to achieve wide public acceptance towards reuse and recycling of wastewater through the developed bioremediation technology
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More information & hyperlinks
Web resources: | https://cordis.europa.eu/project/id/821423 |
Start date: | 01-08-2019 |
End date: | 31-07-2024 |
Total budget - Public funding: | 3 116 948,00 Euro - 3 116 948,00 Euro |
Cordis data
Original description
The overall aim of the SPRING project is to present an integrated water resource management for reliable water supply for all needs that involve; developing innovative simple to operate bio oxidation systems for treatment of polluted water bodies (stagnant and flowing), cost effective real time monitoring tools and finally by implementing good practices in water planning for treatment, supply and usage. SPRING aims at improving and developing technologies for the elimination of pollutants from water using a bioremediation approach.In particular, SPRING aims at improving and developing bioremediation technologies for the removal of organic micro-pollutants present in groundwater and surface water at low concentrations, and which are currently treated using expensive physicochemical technology. Innovation also revolves around provision of simplified water quality monitoring methods and developing novel microbial technology to monitor pollutants in water. The Project will also develop real time detection systems to highlight different pollutants risks and flooding/water insufficiency scenarios.
Field trials of the developed prototype in urban and rural settings will be carried out with the help of Municipality and an NGO.
In addition, an inclusive decision-making process will contribute to democracy and will lend the decision legitimacy. Acceptance of remediation schemes during implementation will be enhanced by involving stakeholders and the public in the decision-making stage and thus, stakeholders decision making and management framework in the form of an NGO and a local Governing Body (Municipality) will be formed. Successful implementation and demonstration of the developed systems involving all stakeholders will help to achieve wide public acceptance towards reuse and recycling of wastewater through the developed bioremediation technology
Status
SIGNEDCall topic
SC5-12-2018Update Date
27-10-2022
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H2020-EU.3.5. SOCIETAL CHALLENGES - Climate action, Environment, Resource Efficiency and Raw Materials
H2020-EU.3.5.2. Protection of the environment, sustainable management of natural resources, water, biodiversity and ecosystems