A critical review of distributed fiber optic sensing applied to geologic carbon dioxide storage

Liu, Tianxiang; Li, Qi; Li, Xiaying; Tan, Yongsheng; Cao, Xiaomin

doi:10.1002/ghg.2279

Greenhouse Gases

2024

DOI: 10.1002/ghg.2279

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A critical review of distributed fiber optic sensing applied to geologic carbon dioxide storage

Tianxiang Liu,

Qi Li,

Xiaying Li

et al.

Abstract: In the context of global climate change, carbon capture and storage (CCS) has become a direct and effective measure for reducing greenhouse gases emission. However, injecting CO2 into the subsurface reservoirs may pose risks related to geological hazards. Therefore, monitoring the variations in underground temperature fields, strain fields, and vibration fields induced by CO2 injection is essential for predicting and controlling geological hazards. Distributed fiber optic sensing (DFOS) technology, with its un… Show more

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Cited by 3 publications

References 85 publications

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A review of underground transport infrastructure monitoring in CCS: Technology and Engineering Practice

Peng,

Xu,

et al. 2024

Process Safety and Environmental Protection

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A review of underground transport infrastructure monitoring in CCS: Technology and Engineering Practice

Peng,

Xu,

et al. 2024

Process Safety and Environmental Protection

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Exhaustive Review of CO₂ Sequestration in Depleted Hydrocarbon Reservoirs: Recent Advances, Challenges and Future Prospects

Nsiama,

Yu,

Wang

et al. 2024

Energy Fuels

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Aging or depleted hydrocarbon reservoirs (AHRs or DHRs) represent a promising alternative for CO 2 geo-sequestration compared to other geological formations, owing to their distinctive characteristics and the availability of pre-existing infrastructure. However, large-scale deployment faces complex, multidimensional challenges that require ongoing research to ensure optimal efficiency and safety. Despite notable progress in understanding the technical processes, significant techno-economic barriers remain. To overcome these obstacles, it is essential to adopt a critical and holistic analysis of existing studies while also exploring innovative approaches. Most recent reviews, though contributing significantly, have focused on specific aspects of CO 2 storage in these reservoirs, neglecting a systemic and multidimensional approach that integrates these various challenges into a single analysis. This fragmented approach leaves a gap in the literature, which may result in an incomplete understanding of the complex interactions between different factors, reducing the effectiveness of proposed solutions and limiting the ability to anticipate long-term impacts on the safety and sustainability of sequestration systems. Additionally, the rapid evolution of technology and scientific knowledge necessitates a constant update of studies related to sequestration in DHRs. Incorporating the latest technological innovations and methodological approaches is crucial to optimizing carbon capture and storage (CCS) processes, enhancing long-term safety, and adapting reservoir management strategies to increasing environmental and economic constraints. This review aims to address these gaps by providing a critical, comprehensive, and multidimensional analysis of recent advances while identifying persistent challenges. The integration of technical, economic, and environmental dimensions into a unified perspective offers a strategic global vision essential for guiding future research and supporting industrial applications. Furthermore, synthesizing the most recent developments and highlighting areas requiring further investigation, this study outlines a strategic roadmap for optimizing CO 2 sequestration in AHRs and DHRs, offering crucial insights for both research and industrial innovation.

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DFOS Technology in Geoengineering Monitoring in the Past 35 Years: A Bibliometric Analysis

Wang,

Garg,

Satyam

et al. 2024

Sensors

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DFOS (distributed fiber-optic sensing) technology has shown the potential to increase the accuracy of measurement after years of development and experimenting in geoengineering monitoring. To better understand the development of DFOS technology and its contribution to geoengineering, an objective and data-driven review of the development process of DFOS technology in construction was completed. The review was accomplished by using text mining methods on the Web of Science, covering a wide range of relevant data, including 3970 articles from 1989 to 2023. The results indicate that DFOS technology research demonstrates the typical characteristics of multi-author, multi-country, and multi-institution collaborations, spanning various research fields. Over the past 35 years, the number of published articles has exhibited exponential growth, with China making significant contributions and leading in terms of its total publication growth rate, which has been higher than that of the United States since 2016. In the analysis of author keywords, emerging technologies, such as machine learning and distributed acoustic sensing, have garnered attention. The findings contribute to a comprehensive understanding of the development, impact, and future trends of DFOS technology in geotechnical engineering, offering valuable insights for researchers, scholars, and students in the field and inspiring new approaches for research methods in this domain.

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A critical review of distributed fiber optic sensing applied to geologic carbon dioxide storage

Cited by 3 publications

References 85 publications

A review of underground transport infrastructure monitoring in CCS: Technology and Engineering Practice

A review of underground transport infrastructure monitoring in CCS: Technology and Engineering Practice

Exhaustive Review of CO₂ Sequestration in Depleted Hydrocarbon Reservoirs: Recent Advances, Challenges and Future Prospects

DFOS Technology in Geoengineering Monitoring in the Past 35 Years: A Bibliometric Analysis

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Resources

About

A critical review of distributed fiber optic sensing applied to geologic carbon dioxide storage

Cited by 3 publications

References 85 publications

A review of underground transport infrastructure monitoring in CCS: Technology and Engineering Practice

A review of underground transport infrastructure monitoring in CCS: Technology and Engineering Practice

Exhaustive Review of CO2 Sequestration in Depleted Hydrocarbon Reservoirs: Recent Advances, Challenges and Future Prospects

DFOS Technology in Geoengineering Monitoring in the Past 35 Years: A Bibliometric Analysis

Contact Info

Product

Resources

About

Exhaustive Review of CO₂ Sequestration in Depleted Hydrocarbon Reservoirs: Recent Advances, Challenges and Future Prospects