Enhancing pore pressure prediction accuracy: A knowledge-driven approach with temporal fusion transformer
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Published:2024-07
Issue:
Volume:238
Page:212839
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ISSN:2949-8910
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Container-title:Geoenergy Science and Engineering
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language:en
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Short-container-title:Geoenergy Science and Engineering
Author:
Cao ShaohuaORCID,
Wang Chengqi,
Niu Qiang,
Zheng Quancheng,
Shen Ge,
Chen BingyangORCID,
Shi Xian,
Zhang Weishan
Reference42 articles.
1. Assessment of pore pressure, wellbore failure and reservoir stability in the Gabo field, Niger Delta, Nigeria-Implications for drilling and reservoir management;Agbasi;J. Afr. Earth Sci.,2021
2. Pore-scale characterization of carbon dioxide storage at immiscible and near-miscible conditions in altered-wettability reservoir rocks;Alhosani;Int. J. Greenh. Gas Control,2021
3. Enhanced recovery of nanoconfined oil in tight rocks using lean gas (C2H6 and CO2) injection;Baek;SPE J.,2021
4. Characterization of pore pressure, fracture pressure, shear failure and its implications for drilling, wellbore stability and completion design–a case study from the Takouazet field, Illizi Basin, Algeria;Baouche;Mar. Petrol. Geol.,2020
5. Pore pressure estimation from velocity data: accounting for overpressure mechanisms besides undercompaction;Bowers;SPE Drill. Complet.,1995