An efficient cross-borehole direct current resistivity monitoring instrument

Lichao Liu; Diego Domenzain Gonzalez; Ivan Vela; Pradip Kumar Maurya; Anders K. Kühl; Thue Bording; Palle Ejlskov; Esben Auken; Jakob Juul Larsen; Anders Vest Christiansen

doi:10.1190/geo2023-0518.1

An efficient cross-borehole direct current resistivity monitoring instrument

Lichao Liu
, Diego Domenzain Gonzalez
, Ivan Vela
, Pradip Kumar Maurya
, Anders K. Kühl
, Thue Bording
, Palle Ejlskov
, Esben Auken
, Jakob Juul Larsen
, Anders Vest Christiansen^*

^*Corresponding author for this work

Research output: Contribution to journal/Conference contribution in journal/Contribution to newspaper › Journal article › Research › peer-review

Abstract

Detailed mapping of pumped agents in in situ groundwater remediation is beneficial for ensuring satisfactory coverage of the contaminated volume. Cross-borehole resistivity measurements can provide time-lapse 3D (or 4D) images that highlight the anomaly volume created by the introduction of agents when the injection has a distinctive conductivity contrast, thereby guiding the injection process. However, existing instruments are mainly designed for surface measurements. We develop an efficient cross-borehole resistivity instrument capable of generating data sets from numerous quadrupoles. After inversion, these data reveal 4D subsurface electrical parameters across the remediation zone. We determine its efficiency by acquiring 599,760 quadrupole measurements at a groundwater remediation test site in just 7.5 h. The two data sets collected before and after agent injection clearly delineate the amendment zone, characterized by the lower resistivity of the remediation agent.

Original language	English
Journal	Geophysics
Volume	90
Issue	2
Pages (from-to)	D61-D70
ISSN	0016-8033
DOIs	https://doi.org/10.1190/geo2023-0518.1
Publication status	Published - 1 Mar 2025

Keywords

4D
Borehole geophysics
Borehole measurements
Electrical/resistivity
Groundwater

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title = "An efficient cross-borehole direct current resistivity monitoring instrument",

abstract = "Detailed mapping of pumped agents in in situ groundwater remediation is beneficial for ensuring satisfactory coverage of the contaminated volume. Cross-borehole resistivity measurements can provide time-lapse 3D (or 4D) images that highlight the anomaly volume created by the introduction of agents when the injection has a distinctive conductivity contrast, thereby guiding the injection process. However, existing instruments are mainly designed for surface measurements. We develop an efficient cross-borehole resistivity instrument capable of generating data sets from numerous quadrupoles. After inversion, these data reveal 4D subsurface electrical parameters across the remediation zone. We determine its efficiency by acquiring 599,760 quadrupole measurements at a groundwater remediation test site in just 7.5 h. The two data sets collected before and after agent injection clearly delineate the amendment zone, characterized by the lower resistivity of the remediation agent.",

keywords = "4D, Borehole geophysics, Borehole measurements, Electrical/resistivity, Groundwater",

author = "Lichao Liu and \{Domenzain Gonzalez\}, Diego and Ivan Vela and Maurya, \{Pradip Kumar\} and K{\"u}hl, \{Anders K.\} and Thue Bording and Palle Ejlskov and Esben Auken and Larsen, \{Jakob Juul\} and Christiansen, \{Anders Vest\}",

year = "2025",

month = mar,

day = "1",

doi = "10.1190/geo2023-0518.1",

language = "English",

volume = "90",

pages = "D61--D70",

journal = "Geophysics",

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TY - JOUR

T1 - An efficient cross-borehole direct current resistivity monitoring instrument

AU - Liu, Lichao

AU - Domenzain Gonzalez, Diego

AU - Vela, Ivan

AU - Maurya, Pradip Kumar

AU - Kühl, Anders K.

AU - Bording, Thue

AU - Ejlskov, Palle

AU - Auken, Esben

AU - Larsen, Jakob Juul

AU - Christiansen, Anders Vest

PY - 2025/3/1

Y1 - 2025/3/1

N2 - Detailed mapping of pumped agents in in situ groundwater remediation is beneficial for ensuring satisfactory coverage of the contaminated volume. Cross-borehole resistivity measurements can provide time-lapse 3D (or 4D) images that highlight the anomaly volume created by the introduction of agents when the injection has a distinctive conductivity contrast, thereby guiding the injection process. However, existing instruments are mainly designed for surface measurements. We develop an efficient cross-borehole resistivity instrument capable of generating data sets from numerous quadrupoles. After inversion, these data reveal 4D subsurface electrical parameters across the remediation zone. We determine its efficiency by acquiring 599,760 quadrupole measurements at a groundwater remediation test site in just 7.5 h. The two data sets collected before and after agent injection clearly delineate the amendment zone, characterized by the lower resistivity of the remediation agent.

AB - Detailed mapping of pumped agents in in situ groundwater remediation is beneficial for ensuring satisfactory coverage of the contaminated volume. Cross-borehole resistivity measurements can provide time-lapse 3D (or 4D) images that highlight the anomaly volume created by the introduction of agents when the injection has a distinctive conductivity contrast, thereby guiding the injection process. However, existing instruments are mainly designed for surface measurements. We develop an efficient cross-borehole resistivity instrument capable of generating data sets from numerous quadrupoles. After inversion, these data reveal 4D subsurface electrical parameters across the remediation zone. We determine its efficiency by acquiring 599,760 quadrupole measurements at a groundwater remediation test site in just 7.5 h. The two data sets collected before and after agent injection clearly delineate the amendment zone, characterized by the lower resistivity of the remediation agent.

KW - 4D

KW - Borehole geophysics

KW - Borehole measurements

KW - Electrical/resistivity

KW - Groundwater

UR - https://www.scopus.com/pages/publications/85218499736

U2 - 10.1190/geo2023-0518.1

DO - 10.1190/geo2023-0518.1

M3 - Journal article

AN - SCOPUS:85218499736

SN - 0016-8033

VL - 90

SP - D61-D70

JO - Geophysics

JF - Geophysics

IS - 2

ER -

An efficient cross-borehole direct current resistivity monitoring instrument

Abstract

Keywords

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