Project overview
PANIWATER (Photo-irradiation and Adsorption Novel Innovations for Water-treatment) is a joint EU-Indian funded project through the Horizon 2020 programme and Indian Department of Science & Technology (DST) which consists of 18 partners in 6 countries (Ireland, UK, Spain, Italy, Cyprus and India). The total budget is €5M over 4 years under H2020 Societal Challenge 5 (SC5) - climate action, environment, resource efficiency and raw materials (EU Contract H2020-SC5-12-2018).
The aim of the project is to develop a range of prototypes and technologies for the treatment of wastewater and drinking water to remove contaminants of emerging concern (CECs) and other pollutants. Drinking water treatment technologies will include combined filtration, adsorption, UV-C LED treatment, a Solar Water Disinfection Transparent Jerrrycan, and electrocoagulation, oxidation, and disinfection (EOD). These prototypes will be deployed in peri-urban and rural areas in India. PANIWATER aims to work with end users on site with actions such as mapping CECs, removing CECs, health impact assessments, assessing social impacts of these interventions with the prototypes to invoke awareness for safe reuse of wastewater for irrigation, and preservation of potable water sources.
PANIWATER technologies will have a significant potential market among the large rural population (60 million+) in India which heavily depends on agriculture, and communities highly vulnerable to risk of exposure to waterborne CECs.
The aim of the project is to develop a range of prototypes and technologies for the treatment of wastewater and drinking water to remove contaminants of emerging concern (CECs) and other pollutants. Drinking water treatment technologies will include combined filtration, adsorption, UV-C LED treatment, a Solar Water Disinfection Transparent Jerrrycan, and electrocoagulation, oxidation, and disinfection (EOD). These prototypes will be deployed in peri-urban and rural areas in India. PANIWATER aims to work with end users on site with actions such as mapping CECs, removing CECs, health impact assessments, assessing social impacts of these interventions with the prototypes to invoke awareness for safe reuse of wastewater for irrigation, and preservation of potable water sources.
PANIWATER technologies will have a significant potential market among the large rural population (60 million+) in India which heavily depends on agriculture, and communities highly vulnerable to risk of exposure to waterborne CECs.
Staff
Lead researchers