Reference : Physically-based groundwater vulnerability assessment for groundwater protection and lan...
Scientific congresses and symposiums : Poster
Physical, chemical, mathematical & earth Sciences : Earth sciences & physical geography
Engineering, computing & technology : Geological, petroleum & mining engineering
http://hdl.handle.net/2268/14373
Physically-based groundwater vulnerability assessment for groundwater protection and land-use management
English
Popescu, Ileana-Cristina [Service Public de Wallonie > DGO3 DGARNE > Division de l'Eau, Direction des Eaux Souterraines > >]
Brouyère, Serge mailto [Université de Liège - ULg > Département Argenco : Secteur GEO3 > Hydrogéologie & Géologie de l'environnement >]
Derouane, Johan [Service Public de Wallonie > DGO3 DGARNE > Division de l'Eau Direction des Eaux Souterraines > >]
Dassargues, Alain mailto [Université de Liège - ULg > Département Argenco : Secteur GEO3 > Hydrogéologie & Géologie de l'environnement >]
22-Apr-2010
A0
No
No
National
International
Symposium de la Meuse 2010
22-23 avril 2010
Aquapôle ULg
Liège
Belgique
[en] groundwater vulnerability ; GIS ; groundwater pollution ; land-use planning ; physically-based ; contaminant transport
[fr] vulnérabilité ; eau souterraine ; système d'information géographique ; pollution des eaux souterraines ; transport des contaminants ; aménagement du territoire
[en] Numerous groundwater vulnerability and risk mapping techniques have been developed taking into consideration a variable number of factors. Most common techniques produce maps of indexes based on a relatively empirical combination of weighted factors reflecting the protective effect of underground formations overlying the groundwater resource. The limitation of such methods is related to their use of a qualitative definition of groundwater vulnerability, as opposed to a definition based on a quantitative description of contaminant migration. A physically-based point of view and definition of the vulnerability is proposed and based on three factors describing a pollution event, which are the contaminant transfer time from the hazard location to the 'target', the contamination duration at the 'target' and the level of contaminant concentration reached at the 'target'. This concept allows a clear distinction between conventional aspects and physically-based results in the building of a final vulnerability indicator. This methodology has the further advantage to consider the possible impact of runoff conditions occurring at the land surface and possibly leading to lateral contamination of groundwater through downstream preferential infiltration features, such as karstic features. Practically, this method needs to describe and simulate the pollutant migration in the unsaturated zone and possibly in the saturated zone in order to assess the breakthrough curve at the 'target'. Preliminary application is illustrated on a case-study located in a Néblon limestone basin in Belgium, one of the main groundwater resources for the city of Liège in the Meuse basin. Perspectives are proposed towards a generalisation of the vulnerability concept for risk assessment within a pressure - state - impact framework.
Aquapôle - AQUAPOLE
Région wallonne : Direction générale des Ressources naturelles et de l'Environnement - DGRNE
Cartographie de la vulnérabilité des eaux souterraines - Application au bassin du Hoyoux - Néblon
Researchers ; Professionals ; Students ; General public
http://hdl.handle.net/2268/14373

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