Tomography of the Darcy Velocity from Self-Potential Measurements

A. Jardani; A. Revil; A. Bolève; A. Crespy; J.-P. Dupont; Warren Barrash; Bwalya Malama

Tomography of the Darcy Velocity from Self-Potential Measurements

A. Jardani, A. Revil, A. Bolève, A. Crespy, J.-P. Dupont, Warren Barrash, Bwalya Malama

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Abstract

An algorithm is developed to interpret self-potential (SP) data in terms of distribution of Darcy velocity of the ground water. The model is based on the proportionality existing between the streaming current density and the Darcy velocity. Because the inverse problem of current density determination from SP data is underdetermined, we use Tikhonov regularization with a smoothness constraint based on the differential Laplacian operator and a prior model. The regularization parameter is determined by the L-shape method. The distribution of the Darcy velocity depends on the localization and number of non-polarizing electrodes and information relative to the distribution of the electrical resistivity of the ground. A priori hydraulic information can be introduced in the inverse problem. This approach is tested on two synthetic cases and on real SP data resulting from infiltration of water from a ditch.

Original language	American English
Journal	Geophysical Research Letters
State	Published - 21 Dec 2007

Keywords

ground water flow
self-potential
tomography

EGS Disciplines

Earth Sciences
Geophysics and Seismology

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Tomography of the Darcy Velocity from Self-Potential MeasurementsFinal published version, 509 KBLicense: Unspecified

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title = "Tomography of the Darcy Velocity from Self-Potential Measurements",

abstract = " An algorithm is developed to interpret self-potential (SP) data in terms of distribution of Darcy velocity of the ground water. The model is based on the proportionality existing between the streaming current density and the Darcy velocity. Because the inverse problem of current density determination from SP data is underdetermined, we use Tikhonov regularization with a smoothness constraint based on the differential Laplacian operator and a prior model. The regularization parameter is determined by the L-shape method. The distribution of the Darcy velocity depends on the localization and number of non-polarizing electrodes and information relative to the distribution of the electrical resistivity of the ground. A priori hydraulic information can be introduced in the inverse problem. This approach is tested on two synthetic cases and on real SP data resulting from infiltration of water from a ditch.",

keywords = "ground water flow, self-potential, tomography",

author = "A. Jardani and A. Revil and A. Bol{\`e}ve and A. Crespy and J.-P. Dupont and Warren Barrash and Bwalya Malama",

year = "2007",

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day = "21",

language = "American English",

journal = "Geophysical Research Letters",

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TY - JOUR

T1 - Tomography of the Darcy Velocity from Self-Potential Measurements

AU - Jardani, A.

AU - Revil, A.

AU - Bolève, A.

AU - Crespy, A.

AU - Dupont, J.-P.

AU - Barrash, Warren

AU - Malama, Bwalya

PY - 2007/12/21

Y1 - 2007/12/21

N2 - An algorithm is developed to interpret self-potential (SP) data in terms of distribution of Darcy velocity of the ground water. The model is based on the proportionality existing between the streaming current density and the Darcy velocity. Because the inverse problem of current density determination from SP data is underdetermined, we use Tikhonov regularization with a smoothness constraint based on the differential Laplacian operator and a prior model. The regularization parameter is determined by the L-shape method. The distribution of the Darcy velocity depends on the localization and number of non-polarizing electrodes and information relative to the distribution of the electrical resistivity of the ground. A priori hydraulic information can be introduced in the inverse problem. This approach is tested on two synthetic cases and on real SP data resulting from infiltration of water from a ditch.

AB - An algorithm is developed to interpret self-potential (SP) data in terms of distribution of Darcy velocity of the ground water. The model is based on the proportionality existing between the streaming current density and the Darcy velocity. Because the inverse problem of current density determination from SP data is underdetermined, we use Tikhonov regularization with a smoothness constraint based on the differential Laplacian operator and a prior model. The regularization parameter is determined by the L-shape method. The distribution of the Darcy velocity depends on the localization and number of non-polarizing electrodes and information relative to the distribution of the electrical resistivity of the ground. A priori hydraulic information can be introduced in the inverse problem. This approach is tested on two synthetic cases and on real SP data resulting from infiltration of water from a ditch.

KW - ground water flow

KW - self-potential

KW - tomography

UR - https://scholarworks.boisestate.edu/cgiss_facpubs/30

M3 - Article

SN - 1944-8007

JO - Geophysical Research Letters

JF - Geophysical Research Letters

ER -

Tomography of the Darcy Velocity from Self-Potential Measurements

Abstract

Keywords

EGS Disciplines

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