Reliability assessment of groundwater monitoring networks at landfill sites
article
Landfills represent a significant threat to groundwater contamination due to their nature of operation and their abundance. Monitoring well networks at these sites are of vital importance in detecting leakage plumes. This study presents a reliability assessment to estimate the performance of groundwater monitoring systems at landfill sites. A hypothetical problem is presented where the detection probability of several monitoring systems is compared. A Monte-Carlo approach is used to incorporate uncertainties due to subsurface heterogeneity and the leak location. Hydraulic conductivity and leak location are considered as random variables with prescribed probability density functions. A finite difference groundwater model coupled with a random walk particle-tracking model simulates a contaminant plume released from the landfill for each Monte-Carlo realization. The analysis shows that lateral dispersivity of the medium has a significant influence on the reliability of the monitoring system, since it is the primary parameter controlling the width of the contaminant plume. Furthermore the number and the location of the monitoring wells are dependent on the heterogeneity of the medium and size of the contaminant leak. It is concluded that the reliability of the common practice of three downgradient monitoring wells is inadequate from the point of view of prevention of groundwater contamination due to landfills. © 2004 Elsevier B.V. All rights reserved.
Topics
Contaminant plumeDetection probabilityGroundwater monitoringLandfillMonte-Carlo analysisComputer simulationContaminationFinite difference methodHydraulic conductivityLand fillMathematical modelsMonitoringMonte Carlo methodsProbability density functionReliabilityWater wellsContaminant leakGroundwater contaminationGroundwater monitoringLandfill sitesGroundwatergroundwater pollutionlandfillpollutant transportpollution monitoringreliability analysis
TNO Identifier
238599
ISSN
00221694
Source
Journal of Hydrology, 308(1-4), pp. 1-17.
Pages
1-17
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