Seismoelectric Imaging of Aquifer Interface: Theoretical Investigation and Laboratory Experiments

Jiaoyang Liu; Yongxin Gao; Jun Wang; Tieyuan Zhu; Pinbo Ding; Guanqun Zhou; Shuaijia Li

doi:10.1029/2024GL112534

Seismoelectric Imaging of Aquifer Interface: Theoretical Investigation and Laboratory Experiments

Jiaoyang Liu, Yongxin Gao, Jun Wang, Tieyuan Zhu, Pinbo Ding, Guanqun Zhou, Shuaijia Li

Geosciences

Research output: Contribution to journal › Article › peer-review

Abstract

The seismoelectric (SE) wave at the vadose zone-aquifer interface, which results from the electrokinetic effect, is a valuable tool for groundwater exploration. We propose a method for imaging aquifer interfaces using SE waves. The common-receiver SE gather, generated by multiple sources, is analogous to the exploding-reflector seismic gather, forming the theoretical foundation of this method. To test this method, two 2D aquifer models are designed to simulate the synthetic common-receiver SE gather, followed by the application of exploding-reflector migration. The result shows that the aquifer interface is well imaged by the SE waves. Additionally, laboratory experiments successfully recovering the interfaces of the rocks confirm the validity of the SE imaging method, suggesting its feasible use in real groundwater exploration in the future.

Original language	English (US)
Article number	e2024GL112534
Journal	Geophysical Research Letters
Volume	51
Issue number	23
DOIs	https://doi.org/10.1029/2024GL112534
State	Published - Dec 16 2024

All Science Journal Classification (ASJC) codes

Geophysics
General Earth and Planetary Sciences

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10.1029/2024GL112534

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title = "Seismoelectric Imaging of Aquifer Interface: Theoretical Investigation and Laboratory Experiments",

abstract = "The seismoelectric (SE) wave at the vadose zone-aquifer interface, which results from the electrokinetic effect, is a valuable tool for groundwater exploration. We propose a method for imaging aquifer interfaces using SE waves. The common-receiver SE gather, generated by multiple sources, is analogous to the exploding-reflector seismic gather, forming the theoretical foundation of this method. To test this method, two 2D aquifer models are designed to simulate the synthetic common-receiver SE gather, followed by the application of exploding-reflector migration. The result shows that the aquifer interface is well imaged by the SE waves. Additionally, laboratory experiments successfully recovering the interfaces of the rocks confirm the validity of the SE imaging method, suggesting its feasible use in real groundwater exploration in the future.",

author = "Jiaoyang Liu and Yongxin Gao and Jun Wang and Tieyuan Zhu and Pinbo Ding and Guanqun Zhou and Shuaijia Li",

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TY - JOUR

T1 - Seismoelectric Imaging of Aquifer Interface

T2 - Theoretical Investigation and Laboratory Experiments

AU - Liu, Jiaoyang

AU - Gao, Yongxin

AU - Wang, Jun

AU - Zhu, Tieyuan

AU - Ding, Pinbo

AU - Zhou, Guanqun

AU - Li, Shuaijia

PY - 2024/12/16

Y1 - 2024/12/16

N2 - The seismoelectric (SE) wave at the vadose zone-aquifer interface, which results from the electrokinetic effect, is a valuable tool for groundwater exploration. We propose a method for imaging aquifer interfaces using SE waves. The common-receiver SE gather, generated by multiple sources, is analogous to the exploding-reflector seismic gather, forming the theoretical foundation of this method. To test this method, two 2D aquifer models are designed to simulate the synthetic common-receiver SE gather, followed by the application of exploding-reflector migration. The result shows that the aquifer interface is well imaged by the SE waves. Additionally, laboratory experiments successfully recovering the interfaces of the rocks confirm the validity of the SE imaging method, suggesting its feasible use in real groundwater exploration in the future.

AB - The seismoelectric (SE) wave at the vadose zone-aquifer interface, which results from the electrokinetic effect, is a valuable tool for groundwater exploration. We propose a method for imaging aquifer interfaces using SE waves. The common-receiver SE gather, generated by multiple sources, is analogous to the exploding-reflector seismic gather, forming the theoretical foundation of this method. To test this method, two 2D aquifer models are designed to simulate the synthetic common-receiver SE gather, followed by the application of exploding-reflector migration. The result shows that the aquifer interface is well imaged by the SE waves. Additionally, laboratory experiments successfully recovering the interfaces of the rocks confirm the validity of the SE imaging method, suggesting its feasible use in real groundwater exploration in the future.

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Seismoelectric Imaging of Aquifer Interface: Theoretical Investigation and Laboratory Experiments

Abstract

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