Microseismic Monitoring at the Farnsworth CO2-EOR Field

Yan Qin; Jiaxuan Li; Lianjie Huang; Kai Gao; David Li; Ting Chen; Tom Bratton; George El-kaseeh; William Ampomah; Titus Ispirescu; Martha Cather; Robert Balch; Yingcai Zheng; Shuhang Tang; Kevin L. McCormack; Brian McPherson

doi:10.3390/en16104177

Microseismic Monitoring at the Farnsworth CO₂-EOR Field

Yan Qin^*
, Jiaxuan Li
, Lianjie Huang^*
, Kai Gao
, David Li
, Ting Chen
, Tom Bratton
, George El-kaseeh
, William Ampomah
, Titus Ispirescu
, Martha Cather
, Robert Balch
, Yingcai Zheng
, Shuhang Tang
, Kevin L. McCormack
, Brian McPherson

^*Corresponding author for this work

Los Alamos National Laboratory
Tom Bratton LLC
New Mexico Institute of Mining and Technology
University of Houston
University of Utah

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

8 Scopus citations

Abstract

The Farnsworth Unit in northern Texas is a field site for studying geologic carbon storage during enhanced oil recovery (EOR) using CO (Formula presented.). Microseismic monitoring is essential for risk assessment by detecting fluid leakage and fractures. We analyzed borehole microseismic data acquired during CO (Formula presented.) injection and migration, including data denoising, event detection, event location, magnitude estimation, moment tensor inversion, and stress field inversion. We detected and located two shallow clusters, which occurred during increasing injection pressure. The two shallow clusters were also featured by large b values and tensile cracking moment tensors that are obtained based on a newly developed moment tensor inversion method using single-borehole data. The inverted stress fields at the two clusters showed large deviations from the regional stress field. The results provide evidence for microseismic responses to CO (Formula presented.) /fluid injection and migration.

Original language	English
Article number	4177
Journal	Energies
Volume	16
Issue number	10
DOIs	https://doi.org/10.3390/en16104177
State	Published - May 2023
Externally published	Yes

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 7 Affordable and Clean Energy

Keywords

CO-EOR
enhanced oil recovery
microseismic detection
microseismic monitoring
moment tensor inversion
stress field inversion

Access to Document

10.3390/en16104177

Cite this

@article{6639a43295254fddbfa7dfeb196c1140,

title = "Microseismic Monitoring at the Farnsworth CO2-EOR Field",

abstract = "The Farnsworth Unit in northern Texas is a field site for studying geologic carbon storage during enhanced oil recovery (EOR) using CO (Formula presented.). Microseismic monitoring is essential for risk assessment by detecting fluid leakage and fractures. We analyzed borehole microseismic data acquired during CO (Formula presented.) injection and migration, including data denoising, event detection, event location, magnitude estimation, moment tensor inversion, and stress field inversion. We detected and located two shallow clusters, which occurred during increasing injection pressure. The two shallow clusters were also featured by large b values and tensile cracking moment tensors that are obtained based on a newly developed moment tensor inversion method using single-borehole data. The inverted stress fields at the two clusters showed large deviations from the regional stress field. The results provide evidence for microseismic responses to CO (Formula presented.) /fluid injection and migration.",

keywords = "CO-EOR, enhanced oil recovery, microseismic detection, microseismic monitoring, moment tensor inversion, stress field inversion",

author = "Yan Qin and Jiaxuan Li and Lianjie Huang and Kai Gao and David Li and Ting Chen and Tom Bratton and George El-kaseeh and William Ampomah and Titus Ispirescu and Martha Cather and Robert Balch and Yingcai Zheng and Shuhang Tang and McCormack, \{Kevin L.\} and Brian McPherson",

note = "Publisher Copyright: {\textcopyright} 2023 by the authors.",

year = "2023",

month = may,

doi = "10.3390/en16104177",

language = "英语",

volume = "16",

journal = "Energies",

issn = "1996-1073",

publisher = "Multidisciplinary Digital Publishing Institute (MDPI)",

number = "10",

}

TY - JOUR

T1 - Microseismic Monitoring at the Farnsworth CO2-EOR Field

AU - Qin, Yan

AU - Li, Jiaxuan

AU - Huang, Lianjie

AU - Gao, Kai

AU - Li, David

AU - Chen, Ting

AU - Bratton, Tom

AU - El-kaseeh, George

AU - Ampomah, William

AU - Ispirescu, Titus

AU - Cather, Martha

AU - Balch, Robert

AU - Zheng, Yingcai

AU - Tang, Shuhang

AU - McCormack, Kevin L.

AU - McPherson, Brian

PY - 2023/5

Y1 - 2023/5

N2 - The Farnsworth Unit in northern Texas is a field site for studying geologic carbon storage during enhanced oil recovery (EOR) using CO (Formula presented.). Microseismic monitoring is essential for risk assessment by detecting fluid leakage and fractures. We analyzed borehole microseismic data acquired during CO (Formula presented.) injection and migration, including data denoising, event detection, event location, magnitude estimation, moment tensor inversion, and stress field inversion. We detected and located two shallow clusters, which occurred during increasing injection pressure. The two shallow clusters were also featured by large b values and tensile cracking moment tensors that are obtained based on a newly developed moment tensor inversion method using single-borehole data. The inverted stress fields at the two clusters showed large deviations from the regional stress field. The results provide evidence for microseismic responses to CO (Formula presented.) /fluid injection and migration.

AB - The Farnsworth Unit in northern Texas is a field site for studying geologic carbon storage during enhanced oil recovery (EOR) using CO (Formula presented.). Microseismic monitoring is essential for risk assessment by detecting fluid leakage and fractures. We analyzed borehole microseismic data acquired during CO (Formula presented.) injection and migration, including data denoising, event detection, event location, magnitude estimation, moment tensor inversion, and stress field inversion. We detected and located two shallow clusters, which occurred during increasing injection pressure. The two shallow clusters were also featured by large b values and tensile cracking moment tensors that are obtained based on a newly developed moment tensor inversion method using single-borehole data. The inverted stress fields at the two clusters showed large deviations from the regional stress field. The results provide evidence for microseismic responses to CO (Formula presented.) /fluid injection and migration.

KW - CO-EOR

KW - enhanced oil recovery

KW - microseismic detection

KW - microseismic monitoring

KW - moment tensor inversion

KW - stress field inversion

UR - https://www.scopus.com/pages/publications/85160604762

U2 - 10.3390/en16104177

DO - 10.3390/en16104177

M3 - 文章

AN - SCOPUS:85160604762

SN - 1996-1073

VL - 16

JO - Energies

JF - Energies

IS - 10

M1 - 4177

ER -