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Statements

Subject Item
n2:7E09085
rdf:type
n3:Projekt
dcterms:description
Within the AQUAREHAB project, different innovative rehabilitation technologies for soil, groundwater and surface water will be developed to cope with a number of hazardous (nitrates, pesticides, chlorinated and aromatic compounds, mixed pollutions) within heavily degraded water systems. The technologies are activated riparian zones/wetlands; smart biomass containing carriers for treatment of water in open trenches; in-situ technologies to restore degraded surface water by inhibiting influx of pollutants from groundwater to surface water; multifunctional permeable barriers and injectable Fe-based particles for rehabilitation of groundwater. Methods will be developed to determine the (long-term) impact of the innovative rehabilitation technologies on the reduction of the influx of these priority pollutants towards the receptor. A connection between the innovative technologies and river basin management will be worked out. In a first stage of the project, the technologies and integration of their impact in river basin management will be developed in three different river basins (Denmark, Israel, Belgium). In a second stage, the generic approaches will be extrapolated to one or two more river basins. One of the major outcomes of the project will be a generic river basin management tool that integrates multiple measures with ecological and economic impact assessments of the whole water system. The research in the project is focussed on innovative rehabilitation strategies to reduce priority pollutants in the water system whereas the generic management tool will include other measures related to flood protection, water scarcity and ecosystem health, The project will aid in underpinning river basin management plans being developed in EU Member States, and will demonstrate cost effective technologies that can provide technical options for national and local water managers, planners and other stakeholders (drinking water companies, industry,agriculture. Within the AQUAREHAB project, different innovative rehabilitation technologies for soil, groundwater and surface water will be developed to cope with a number of hazardous (nitrates, pesticides, chlorinated and aromatic compounds, mixed pollutions) within heavily degraded water systems. The technologies are activated riparian zones/wetlands; smart biomass containing carriers for treatment of water in open trenches; in-situ technologies to restore degraded surface water by inhibiting influx of pollutants from groundwater to surface water; multifunctional permeable barriers and injectable Fe-based particles for rehabilitation of groundwater. Methods will be developed to determine the (long-term) impact of the innovative rehabilitation technologies on the reduction of the influx of these priority pollutants towards the receptor. A connection between the innovative technologies and river basin management will be worked out. In a first stage of the project, the technologies and integration of their impact in river basin management will be developed in three different river basins (Denmark, Israel, Belgium). In a second stage, the generic approaches will be extrapolated to one or two more river basins. One of the major outcomes of the project will be a generic river basin management tool that integrates multiple measures with ecological and economic impact assessments of the whole water system. The research in the project is focussed on innovative rehabilitation strategies to reduce priority pollutants in the water system whereas the generic management tool will include other measures related to flood protection, water scarcity and ecosystem health, The project will aid in underpinning river basin management plans being developed in EU Member States, and will demonstrate cost effective technologies that can provide technical options for national and local water managers, planners and other stakeholders (drinking water companies, industry,agriculture.
dcterms:title
Development of rehabilitation technologies and approaches for multipressured degraded waters and the integration of their impact on river basin management Development of rehabilitation technologies and approaches for multipressured degraded waters and the integration of their impact on river basin management
n3:cislo-smlouvy
n6:2011-321
n3:dalsi-vedlejsi-obor
n9:DK
n3:druh-souteze
n10:RP
n3:faze
n4:54614583
n3:hlavni-obor
n9:DJ
n3:vedlejsi-obor
n9:DN
n3:id-aktivity
n12:7E
n3:id-souteze
n5:
n3:kategorie
n11:2
n3:klicova-slova
Reabilitation technologies, wetlands, river basin mnagement, sediments, riparian zones, multibarrier, injeactable particles, numerical model
n3:konec-reseni
2013-04-30+01:00
n3:pocet-koordinujicich-prijemcu
0
n3:poskytovatel
n8:MSM
n3:start-reseni
2009-05-01+01:00
n3:statni-podpora
1074
n3:typProjektu
n13:P
n3:uznane-naklady
1074
n3:pocet-prijemcu
1
n3:pocet-spoluprijemcu
0
n3:pocet-vysledku
0
n3:pocet-vysledku-zverejnovanych
0