![]() Determine the feasibility & challenges faced at household, community, regional and national level for the adoption of integrated solar technologies for point-of-use drinking water treatment. Explore the relevant governance practices and decision-making capacity at local, national and international level that impact upon the use of integrated solar technologies for point-of-use drinking water treatment. Examine the effect of gender relations on uptake of SODIS technologies. Build integrated understanding of the social, political & economic context of water use & needs of specific communities. ![]() WATERSPOUTT will use social science strategies to: a. (Malawi) These are novel technologies that will create employment and economic benefits for citizens in both the EU and resource-poor nations. COMBINED 20L SODIS/CERAMIC POT FILTRATION SYSTEMS. HARVESTED RAINWATER SODIS SYSTEMS for domestic and community use. These novel large-volume water treatment SODIS technologies will be developed in collaboration and consultation with the end-users, and include: 1. WATERSPOUTT will design, develop, pilot and field-test a range of, sustainable point-of-use solar disinfection (SODIS) technologies that will provide affordable access to safe water to remote and vulnerable communities in Africa and elsewhere. The WHO estimates that in 2015 in Africa ~156 million people relied on untreated sources for their drinking water.
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