Monitoring strategies at phreatic wellfields: A 3D travel time approach
article
Ground water quality networks for monitoring phreatic drinking water wellfields are generally established for two main purposes: (1) the short-term safeguarding of public water supply and (2) signaling and predicting future quality changes in the extracted ground water. Six monitoring configurations with different well locations and different screen depths and lengths were evaluated using a numerical model of the 3D ground water flow toward a partially penetrating pumping well in a phreatic aquifer. Travel times and breakthrough curves for observation and pumping wells were used to judge the effectiveness of different design configurations for three monitoring objectives: (1) early warning; (2) prediction of future quality changes; and (3) evaluation of protection measures inside a protection zone. Effectiveness was tested for scenarios with advective transport, first-order degradation, and linear sorption. It is shown that the location and especially the depth of the observation wells should be carefully chosen, taking into account the residence time from the surface to the observation well, the residual transit times to the extraction well, and the transformation and retardation rates. Shallow monitoring was most functional for a variety of objectives and conditions. The larger the degradation rates or retardation, the shallower should the monitoring be for effective early warning and prediction of future ground water quality. The general approach followed in the current study is applicable for many geohydrological situations, tuning specific monitoring objectives with residence times and residual transit times obtained from a site-specific ground water flow model. Copyright © 2005 National Ground Water Association. Chemicals / CAS: Water Pollutants, Chemical
Topics
GroundwaterHydrogeologyMathematical modelsPotable waterWater supplyConfigurationsNumerical modelsPhreatic wellfieldsWater qualitybreakthrough curvedrinking watergroundwater resourcemonitoringphreatic zonewater qualityarticleenvironmental monitoringmethodologytheoretical modeltimewater flowwater pollutantwater supplyEnvironmental MonitoringModels, TheoreticalTime FactorsWater MovementsWater Pollutants, ChemicalWater Supply
TNO Identifier
238800
ISSN
0017467X
Source
Ground Water, 43(6), pp. 850-862.
Pages
850-862
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