Estimation of hydraulic parameters using electrical resistivity tomography (ERT) and empirical laws in a semi‐confined aquifer

Perdomo, Santiago; Kruse, Eduardo Emilio; Ainchil, Jerónimo Enrique

doi:10.1002/nsg.12020

Cited by 18 publications

(12 citation statements)

References 58 publications

(122 reference statements)

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“…The flow of water and the flow of electrical current in porous media are governed by similar petrophysical parameters (e.g., porosity, grain size distribution, pore size distribution, mineralogy of grains, geometry of pores, tortuosity), making them related to each other (Soupios et al 2007;Kirsch & Yaramanci 2009). Many authors have used the analogy of the governing factors for hydraulic and electrical conduction to establish empirical relationships and models (Börner 2009;Perdomo et al 2018). For example, Archie's law relates bulk resistivity and fluid resistivity in a formation factor that depends on the tortuosity and the porosity (Glover 2016;Perdomo et al 2018).…”

Section: Theory Methods and Materialsmentioning

confidence: 99%

“…Many authors have used the analogy of the governing factors for hydraulic and electrical conduction to establish empirical relationships and models (Börner 2009;Perdomo et al 2018). For example, Archie's law relates bulk resistivity and fluid resistivity in a formation factor that depends on the tortuosity and the porosity (Glover 2016;Perdomo et al 2018). Another approach is the Kozeny-Carman equation, which relates the hydraulic conductivity among the porosity with its hydraulic radius, the tortuosity and other structural parameters (Börner 2009).…”

Section: Theory Methods and Materialsmentioning

confidence: 99%

“…The conventional ways to estimate these parameters are through pumping tests, slug tests, permeameter measurements and grain size analysis (Fetter 2001). However, these tests can be expensive, time-consuming and depend on the existence of boreholes and sampling points conveniently distributed over a study area (Soupios et al 2007;Perdomo et al 2018). Likewise, values of hydrogeological parameters can vary over relatively short distances in heterogeneous aquifers, making the results from conventional methods valid only for small sectors of an aquifer (Perdomo et al 2018).…”

Section: Introductionmentioning

confidence: 99%

“…However, these tests can be expensive, time-consuming and depend on the existence of boreholes and sampling points conveniently distributed over a study area (Soupios et al 2007;Perdomo et al 2018). Likewise, values of hydrogeological parameters can vary over relatively short distances in heterogeneous aquifers, making the results from conventional methods valid only for small sectors of an aquifer (Perdomo et al 2018). The correlation between resistivity and hydrogeological properties in porous aquifers can be used to get cost-effective estimations of parameters like K and T from surface geoelectrical measurements (Tizro et al 2010).…”

Section: Introductionmentioning

confidence: 99%

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Quantitative estimations of aquifer properties from resistivity in the Bolivian highlands

et al. 2019

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Resistivity data constitute the largest part of the available information to assess the hydrogeological characteristics of the aquifer system near Oruro, in the central part of the Bolivian Altiplano. Two aquifers are part of this system; top unconsolidated sediments storing fresh water in their granular voids, overlying fractured hard rock formations where saline water was detected in connection to some faults. This study proposes an indirect and cost-effective way to estimate aquifer hydraulic properties for the groundwater management in the region. Hydraulic conductivity and transmissivity in the top aquifer were estimated using an empirical linear relationship between hydraulic conductivity and resistivity. This latter parameter, as well as the aquifer thickness, were obtained from the inverted models corresponding to the geoelectrical tests performed in the study area (electrical resistivity tomography, transient electromagnetic soundings and vertical electrical soundings). The highest estimated transmissivity values are ∼4.0 × 10−2 m2/s located in the centre of the study area, the lowest values are ∼3.4 × 10−3 m2/s, located around thermal intrusions to the south and where the top of the bedrock is shallow (∼20 m depth) to the west. The methodology presented in this study makes wider use of resistivity measurements to identify promising groundwater production sites.

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Section: Theory Methods and Materialsmentioning

confidence: 99%

Section: Theory Methods and Materialsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Quantitative estimations of aquifer properties from resistivity in the Bolivian highlands

et al. 2019

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“…The resistivity and aquifer thickness values from the inversion of electrical resistivity data were used to determine aquifer parameters (soil corrosivity, protective capacity, and designation).Usually, the conventional way to estimate these parameters is through a pumping test and grain size analysis (Fetter, 2001). But the test takes longer time and is not economical (Perdomo et al, 2018;. Therefore, a geophysical approach (electrical resistivity method) can be used to determine hydraulic parameters (Abdulrazzaq et al, 2020;Hasan et al, 2020).…”

mentioning

confidence: 99%

Investigation of Groundwater Potential using Electrical Resistivity Method and Hydraulic Parameters in Lam Apeng, Aceh Besar, Indonesia.

Darisma

Fernanda

Syukri

2020

J. Geoscience Eng. Environ. Technol.

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Lam Apeng is a village with a majority of people living as farmers, which causes the need of water for agriculture is increasing. The water demand in this area continues to increase as the population increases, for various purposes. The objective of this study is to determine the distribution of the groundwater layer using the electrical resistivity method and to determine groundwater potential using hydraulic parameters. This research is conducted using 2 measurement line with a length of each line is 112 meters and distances of each electrode is 2 meters. The data invert using Res2Dinv software to obtain 2D subsurface lithology subsurface. At line 1, the aquifer (sand) layer is located in the second layer with a rock resistivity value of 12 Ωm - 18.6 Ωm at a depth of 8 m - 18 m. At line 2, the aquifer (sand) layer is also located in the second layer with a resistivity value of 4.6 Ωm - 18 Ωm at a depth of 5 m – 12 m. Based on the interpretation of the two measurement lines, it can be concluded that the type of aquifer in the research site is a semi unconfined aquifer. In this study, hydraulic parameters (hydraulic conductivity, longitudinal conductance, transverse resistance, and transmissivity) was calculated based on the resistivity value and the thickness of the aquifer layer. The average resistivity of the aquifer layer used is 15.3 Ωm and 11.3 Ωm, respectively for line 1 and line 2, indicating that the aquifer was moderately corrosive. Longitudinal conductance values are 0.65 Ω-1 and 0.62 Ω-1 which indicated moderate protective capacity. The transmissivity values are 6.78 m2/dayand 4.77 m2/day, which indicates that the designation in this area is low and the groundwater potential is local or only for personal consumption.

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Imaging of groundwater contamination using 3D joint inversion of electrical resistivity tomography and radio magnetotelluric data: A case study from Northern India

Devi

Israil

Singh

et al. 2020

Near Surface Geophysics

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The impact of untreated sewage irrigation and waste disposal practices on groundwater is investigated by 3D joint inversion of radio magnetotelluric and electrical resistivity tomography data. In this case study, electrical resistivity tomography and radio magnetotelluric field measurements were carried out on several profiles near a waste disposal site which was irrigated with untreated sewage water for agriculture purpose. In addition, radio magnetotelluric and electrical resistivity tomography measurements were carried out, far away from the waste site, to derive the uncontaminated geology. The data were analysed earlier using 2D inversion techniques. However, for the 2D inversion of the electrical resistivity tomography and radio magnetotelluric data, assumptions about the strike direction are required. As no clear strike direction is evident for the contamination, we considered the problem as 3D and interpreted the present data set using the 3D inversion algorithm ‘AP3DMT‐DC’. The inverted 3D resistivity model shows an unconfined aquifer of low resistivity which is overlain by an unsaturated slightly resistive near surface formation. With increasing distance from the waste sites, an increase in the resistivity of the shallow unconfined aquifer is observed. Furthest away from the waste site undisturbed geology is expected. We derived consistent and meaningful 3D resistivity models. The uncontaminated reference site indicates an increased resistivity for the aquifer layer. A synthetic 3D study was carried out to demonstrate and validate algorithm performance as well as convergence capabilities. The study demonstrates that the two methods, electrical resistivity tomography and radio magnetotelluric, complement each other. Besides, a better resolved inverted model is obtained through a 3D joint inversion, in comparison to individual 2D and 3D inversions.

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Estimation of hydraulic parameters using electrical resistivity tomography (ERT) and empirical laws in a semi‐confined aquifer

Cited by 18 publications

References 58 publications

Quantitative estimations of aquifer properties from resistivity in the Bolivian highlands

Quantitative estimations of aquifer properties from resistivity in the Bolivian highlands

Investigation of Groundwater Potential using Electrical Resistivity Method and Hydraulic Parameters in Lam Apeng, Aceh Besar, Indonesia.

Imaging of groundwater contamination using 3D joint inversion of electrical resistivity tomography and radio magnetotelluric data: A case study from Northern India

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