Publication Details |
| Category | Text Publication |
| Reference Category | Journals |
| DOI | 10.1007/s12665-014-3416-1 |
| Document | Shareable Link |
| Title (Primary) | Multi-scale aquifer characterization and groundwater flow model parameterization using direct push technologies |
| Author | Rogiers, B.; Vienken, T.; Gedeon, M.; Batelaan, O.; Mallants, D.; Huysmans, M.; Dassargues, A. |
| Source Titel | Environmental Earth Sciences |
| Year | 2014 |
| Department | MET |
| Volume | 72 |
| Issue | 5 |
| Page From | 1303 |
| Page To | 1324 |
| Language | englisch |
| Keywords | Direct push technologies; Cone penetration testing; Injection logging; Hydraulic profiling; Heterogeneity; Conditional simulation; Non-stationary geostatistics |
| UFZ wide themes | RU5; |
| Abstract | Direct push (DP) technologies are typically used for cost-effective geotechnical characterization of unconsolidated soils and sediments. In more recent developments, DP technologies have been used for efficient hydraulic conductivity (K) characterization along vertical profiles with sampling resolutions of up to a few centimetres. Until date, however, only a limited number of studies document high-resolution in situ DP data for three-dimensional conceptual hydrogeological model development and groundwater flow model parameterization. This study demonstrates how DP technologies improve building of a conceptual hydrogeological model. We further evaluate the degree to which the DP-derived hydrogeological parameter K, measured across different spatial scales, improves performance of a regional groundwater flow model. The study area covers an area of ~60 km2 with two overlying, mainly unconsolidated sand aquifers separated by a 5–7 m thick highly heterogeneous clay layer (in north-eastern Belgium). The hydrostratigraphy was obtained from an analysis of cored boreholes and about 265 cone penetration tests (CPTs). The hydrogeological parameter K was derived from a combined analysis of core and CPT data and also from hydraulic direct push tests. A total of 50 three-dimensional realizations of K were generated using a non-stationary multivariate geostatistical approach. To preserve the measured K values in the stochastic realizations, the groundwater model K realizations were conditioned on the borehole and direct push data. Optimization was performed to select the best performing model parameterization out of the 50 realizations. This model outperformed a previously developed reference model with homogeneous K fields for all hydrogeological layers. Comparison of particle tracking simulations, based either on the optimal heterogeneous or reference homogeneous groundwater model flow fields, demonstrate the impact DP-derived subsurface heterogeneity in K can have on groundwater flow and solute transport. We demonstrated that DP technologies, especially when calibrated with site-specific data, provide high-resolution 3D subsurface data for building more reliable conceptual models and increasing groundwater flow model performance. |
| Persistent UFZ Identifier | https://www.ufz.de/index.php?en=20939&ufzPublicationIdentifier=14994 |
| Rogiers, B., Vienken, T., Gedeon, M., Batelaan, O., Mallants, D., Huysmans, M., Dassargues, A. (2014): Multi-scale aquifer characterization and groundwater flow model parameterization using direct push technologies Environ. Earth Sci. 72 (5), 1303 - 1324 10.1007/s12665-014-3416-1 |
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