Relevance of deterministic structures for modeling of transport: the Lauswiesen case study

Ground Water
Falk Händel, Peter Dietrich

Abstract

Knowledge of site-specific contaminant transport processes is an essential requirement for performing various tasks concerning the protection and management of groundwater resources. However, prediction of their behavior is often difficult, especially in heterogeneous aquifers because of the lack of information about flow- and transport-governing subsurface structures and parameters. Hence, stochastic approaches have been developed and frequently used. However, extensive modeling studies on sedimentary structures have shown that consideration of hydrogeological subunits and their distribution can be essential for transport modeling. A case study from the intensely investigated Lauswiesen site is used to demonstrate that more accurate predictions are possible with improved knowledge of deterministic structures. Results of this case study using direct-push injection logging (DPIL) provide a more reliable characterization of hydraulic conductivity than sieve and flow meter data.

References

Jan 19, 2002·Ground Water·James J ButlerSteven P Loheide
May 11, 2005·Ground Water·Serge BrouyèreAlain Dassargues
Aug 15, 2006·Journal of Contaminant Hydrology·M RivaE Martac
Mar 1, 2008·Ground Water·Peter DietrichKlaus Faiss
Sep 17, 2009·Ground Water·John Bredehoeft
Feb 6, 2010·Ground Water·Randall J Hunt, David E Welter
Mar 18, 2011·Ground Water·John Doherty

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Citations

Jun 25, 2016·Ground Water·Stephan KlotzschFalk Händel

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