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Environmental‐economic analysis of <scp>CCUS</scp> in a mature carbonate reservoir for oilfield decarbonization

成熟した炭酸塩岩貯留層におけるCCUSの環境・経済分析:油田脱炭素化に向けて (AI 翻訳)

Seyedeh Hosna Talebian, Iliya Heidari, Danial Eisazadeh, Farhad Gohari

Environmental Progress &amp; Sustainable Energy📚 査読済 / ジャーナル2026-07-08#CCUS経営インパクト: 資金調達対象セクター: oil_and_gas
DOI: 10.1002/ep.70542
原典: https://doi.org/10.1002/ep.70542
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🤖 gxceed AI 要約

日本語

本研究は、フレアガスからのCO2回収とCO2-EORを組み合わせたCCUSプロジェクトを、成熟した炭酸塩油田で評価した。LCAとキャッシュフローモデルにより、年間約46,000tCO2eの削減効果と2.8~4.4%の内部収益率を示した。

English

This study evaluates a CCUS project integrating CO2 capture from flare gas with CO2-EOR in a mature carbonate oilfield. Using LCA and cash-flow modeling, it shows annual reduction of ~46,000 tCO2e and IRR of 2.8–4.4%, highlighting dual emissions and economic benefits.

Unofficial AI-generated summary based on the public title and abstract. Not an official translation.

📝 gxceed 編集解説 — Why this matters

日本のGX文脈において

日本ではCCS/CCUSがGX政策の柱の一つであり、本論文で示された統合的評価手法やフレア削減の経済性分析は、国内の成熟油田やCO2-EOR検討の参考となる。

In the global GX context

This paper provides a practical CCUS evaluation framework integrating technical, environmental, and economic dimensions, relevant for global decarbonization strategies in mature oilfields. Its findings on flare tax incentives and economic viability inform policy design for CCUS deployment.

👥 読者別の含意

🔬研究者:Provides a comprehensive CCUS evaluation methodology combining LCA, EOR screening, and economic modeling that can be adapted for other fields.

🏢実務担当者:Offers insight into the economic feasibility and emission reduction potential of CCUS with CO2-EOR in mature oilfields, useful for project planning.

🏛政策担当者:Highlights the role of flare tax incentives in improving CCUS project returns, informing regulatory design for decarbonization.

📄 Abstract(原文)

Abstract To comply with increasingly stringent net‐zero carbon regulations, the oil industry must implement innovative technologies that enable energy market competitiveness while achieving decarbonization targets. Carbon capture, utilization, and storage (CCUS) has emerged as a practical transitional strategy, particularly when integrated with CO 2 ‐enhanced oil recovery (EOR) in mature oilfields with large flaring volumes. This integration offers dual financial and environmental benefits, especially in the regions where CCS policies remain underdeveloped. This study presents a comprehensive evaluation of a CCUS implementation in a mature carbonate oilfield characterized by large‐scale flaring and declining reservoir productivity. A synergistic review of CO 2 capture and separation methods is combined with a tailored EOR‐screening framework to assess capture‐injection compatibility. A detailed life cycle assessment (LCA) quantifies emissions, including those from flaring, capture, compression, injection, and indirect electricity use, while a carbon resilience cash‐flow model analyzes environmental‐economic performance over a 10‐year project horizon under base, stress, and optimistic scenarios. Environmental analysis indicates that approximately 0.4 million tCO 2 can be captured from flare gas annually, yielding an average annual reduction of 0.046 million tCO 2 e in global warming potential. The project demonstrates internal rates of return (IRR) ranging from 2.8% to 4.4%, depending on oil price, flare tax incentives, and capture cost assumptions. The study also highlights critical challenges, including CO 2 ‐induced asphaltene precipitation, well integrity risks, and the need for integrated infrastructure. Overall, the findings confirm the dual benefit of CCUS for emissions mitigation and enhanced oil recovery, offering a scalable model for flare reduction applicable to other mature fields.

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