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Hydrogeology Journal

Erschienen in:

01.03.2011 | Paper

Aquifer hydraulic conductivity estimation from surface geoelectrical measurements for Krauthausen test site, Germany

verfasst von: Sri Niwas, B. Tezkan, Mohd Israil

Erschienen in: Hydrogeology Journal | Ausgabe 2/2011

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Abstract

The physical explanation is presented for two types of theoretical equations which encompass a direct and an inverse relationship between the hydraulic conductivity and electrical resistivity of an aquifer. Using the theory of direct current (DC) resistivity prospecting, it is shown that a direct relation exists if the bulk of the current flow is in the vertical direction, whereas the inverse relation exists if the current is in the horizontal direction. Consequently, the relation in question is direct in the case of a relatively conducting basement and inverse in the case of a comparatively resistive basement. Then, the aquifer hydraulic conductivity for the hydrogeologically well-studied area of Krauthausen in Germany is estimated by two different techniques using surface geoelectrical data. The estimated values are compared with those conventionally determined by a pump test experiment and it can be concluded that the estimation is better whenever geoelectrical data are used.

Vorheriger Artikel Influences of subsurface heterogeneity and vegetation cover on soil moisture, surface temperature and evapotranspiration at hillslope scales

Nächster Artikel A fast flux tube-based method for solute-transport simulation

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Archie GE (1942) The electrical resistivity log as aid in determining some reservoir characteristics. Trans Am Inst Min Metall Eng 146:54–62

Atkins ER, Smith GH (1961) The significance of particle shape in formation resistivity factor-porosity relationship. J Petrol Technol 13:285–291

Borner FD, Schopper JR, Weller A (1996) Evaluation of transport and storage properties in the soil and groundwater zone from induced polarization measurements. Geophys Prospect 44:583–602CrossRef

Clavier C, Coats G, Dumanoir J (1984) Theoretical and experimental bases for the dual water model for the interpretation of shaly sands. J Soc Petrol 4:153–168

Domenico PA, Schwarz FW (1990) Physical and chemical hydrogeology. Wiley, Hoboken, NJ, 324 pp

Doring U (1997) Transport der reaktiven Stoffe Eosin, Uranin und Lithium in einem heterogenen Grundwasserleiter. Berichte des Forschungszentrums Julich, vol 3354 [Transport of the reactive materials Eosin, Uranin and Lithium in a heterogeneous groundwater aquifer, vol 3354]. Reports, Forschungszentrum Julich, Germany

Doveton JH (1986) Log analysis of subsurface geology. Wiley, New York

Englert A (2003) Measurements, estimation and modeling of groundwater flow velocity at Krauthausen test site. PhD Thesis, RWTH Aachen, Germany

Ghosh DP (1971a) The application of linear filter theory to the direct interpretation of geoelectrical resistivity sounding measurements. Geophys Prospect 19:192–217CrossRef

Ghosh DP (1971b) Inverse filter coefficients for the computation of apparent resistivity standard curves for a horizontally stratified earth. Geophys Prospect 19:769–775CrossRef

Hördt A, Blaschek R, Kemna A, Zisser N (2007) Hydraulic conductivity estimation from induced polarization data at the field scale: the Krauthausen case study. J Appl Geophys 62:33–46CrossRef

Inman JR (1975) Resistivity inversion with ridge regression. Geophysics 40:798–817CrossRef

Jackson PD, Taylor D, Smith PM (1978) Standard resistivity-porosity-particle shape relationships for marine sands. Geophysics 43:1250–1268CrossRef

Kunetz G (1966) Principles of direct current resistivity prospecting. Borntraeger, Berlin, 101 pp

Koefoed O (1979) Geosounding principles, 1: resistivity sounding measurements. Elsevier, Amsterdam

Kozeny J (1953) Hydraulics. Springer, Vienna

Lines LR, Treitel S (1984) A review of least squares inversion and its application to geophysical problems. Geophys Prospect 32:159–186CrossRef

Lynch EJ (1976) Formation evaluation. Harper and Row, New York

Maillet R (1947) The fundamental equations of electrical prospecting. Geophysics 3:529–556CrossRef

Maxwell JC (1881) A treatise on electricity and magnetism, 2nd edn. Oxford University Press, Oxford

Mazac O, Kelly WE, Landa I (1985) A hydrogeophysical model for relation between electrical and hydraulic properties of aquifers. J Hydrol 79:1–19CrossRef

Mazac O, Cislerova M, Kelly WE, Landa I, Venhodova D (1990) Determination of hydraulic conductivities by surface geoelectrical methods. In: Ward SH (ed) Geotechnical and environmental geophysics, vol II. SEG, Tulsa, OK, pp 125–131

Nix B (2005) Radiomagnetotellurik messungen zur räumlichen und zeitlichen ausbreitung eines grundwasser tracer. [Radiomagnetotelluric measurements for the detection of spatial and time variations of a groundwater tracer]. MSc Thesis, University of Cologne, Germany

Nix B, Tezkan B, Muller K, Kemna A (2005) Monitoring of groundwater tracer using radiomagnetotellurics (RMT). Near Surface 2005, September 2005, Palermo, Italy

Purvance DT, Andricevic R (2000) On the electric-hydraulic conductivity correlation in aquifers. Water Resour Res 36:2905–2913CrossRef

Soupios PM, Kouli M, Vallianatos F, Vafidis A, Stavroulakis G (2007) Estimation of aquifer hydraulic parameters from surficial geophysical method: a case study of Keritis Basin in Chania (Crete-Greece). J Hydrol 338:122–131CrossRef

Niwas S, Singhal DC (1981) Estimation of aquifer transmissivity from Dar-Zarrouk parameters in porous media. J Hydrol 50:393–399CrossRef

Niwas S, Singhal DC (1985) Aquifer transmissivity of porous media from resistivity data. J Hydrol 82:143–153CrossRef

Niwas S, Lima OAL (2006) Correlating electrical and hydraulic conductivity of a general aquifer model: concept and application. J Geol Soc India 67:730–736

Niwas S, Gupta PK, Lima OAL (2006) Non-linear electrical response of shaly sandstone reservoir. Geophysics 71:129–133CrossRef

Tezkan B, Saraev A (2007) A new radiomagnetotelluric device for environmental geophysics operating in the frequency range from 10 KHz-1 MHz. Extended abstract, 20. SAGEEP meeting, April 2007, Denver, CO

Tillman A, Englert A, Nyari Z, Fejes I, Vanderborght J, Vereecken H (2008) Characterization of subsoil heterogeneity, estimation of grain size distribution and hydraulic conductivity at the Krauthausen test site using cone penetration test. J Contam Hydrol 95:57–75CrossRef

Thomas EC (1992) 50th Anniversary of the Archie equation: Archie left more than just an equation. The Log Analyst May–June:199–205

Vereecken H, Doring H, Hardelauf H, Jaekel H, Neuendorf O, Schwarze H, Seidermann R (1999) Analysis of solute transport in a heterogeneous aquifer: the Krauthausen field experiment 1—experimental set up, sediment characterization and moment analysis. Internal report no. 500798. Forschungszentrum Julich, Julich, Germany

Vereecken H, Doring H, Hardelauf H, Jaekel H, Neuendorf O, Schwarze H, Seidermann R (2000) Analysis of solute transport in a heterogeneous aquifer: the Krauthausen field experiment. J Contam Hydrol 45:329–358CrossRef

Waxman MH, Smits LJM (1968) Electrical conductivities in oil-bearing shaly sands. J Soc Petrol Eng 8:107–122

Titel: Aquifer hydraulic conductivity estimation from surface geoelectrical measurements for Krauthausen test site, Germany
verfasst von: Sri Niwas
B. Tezkan
Mohd Israil
Publikationsdatum: 01.03.2011
Verlag: Springer-Verlag
Erschienen in: Hydrogeology Journal / Ausgabe 2/2011
Print ISSN: 1431-2174
Elektronische ISSN: 1435-0157
DOI: https://doi.org/10.1007/s10040-010-0689-7

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