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Derivation of flow and transport parameters from outcropping sediments of the Neogene aquifer, Belgium
Rogiers, B.; Beerten, K.; Smeekens, T.; Mallants, D.; Gedeon, M.; Huysmans, M.; Batelaan, O.; Dassargues, A. (2013). Derivation of flow and transport parameters from outcropping sediments of the Neogene aquifer, Belgium. Geol. Belg. 16(3): 129-147
In: Geologica Belgica. Geologica Belgica: Brussels . ISSN 1374-8505; e-ISSN 2034-1954
Peer reviewed article  

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Author keywords
    Air permeameter; grain size; spatial variability; upscaling; anisotropy;dispersivity

Authors  Top 
  • Rogiers, B.
  • Beerten, K.
  • Smeekens, T.
  • Mallants, D.
  • Gedeon, M.
  • Huysmans, M.
  • Batelaan, O.
  • Dassargues, A.

Abstract
    Centimetre-scale saturated hydraulic conductivities (K) are derived from air permeability measurements on a selection of outcrops of the Neogene aquifer in the Campine area, Belgium. Outcrop sediments are of Miocene to Quaternary age and have a marine to continental origin. Grain size analyses for the same outcrops and corresponding K predictions using previously developed models are also presented. We discuss outcrop hydrogeological properties and quantify the heterogeneity within the outcrops in detail using geostatistical variography. Moreover, outcrop-scale K values, their anisotropy and dispersivities are numerically calculated as a means to upscale such small-scale measurements to a larger scale commensurate with the scale of flow and transport modelling. By studying the small-scale variability as observed in outcrops, we gain crucial understanding of the larger-scale behaviour of the corresponding hydrogeological units within the Neogene aquifer, the most important groundwater reservoir of Flanders. The results of this study will equally improve conceptual hydrogeological model building and parameterization.

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