Effect of swab and surge pressure on the time-dependent wellbore natural fracture development

Drilling engineers continue to grapple with the persistent challenge of maintaining wellbore stability. Throughout the drilling process, the wellbore pressure experiences fluctuations induced by various factors such as swab and surge pressure, leading to potential instability. This study employs a n...

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Bibliographic Details
Published in:Geomechanics and geophysics for geo-energy and geo-resources. 2024-12, Vol.10 (1), p.1-18, Article 107
Main Authors: Kamgue Lenwoue, Arnaud Regis, Li, Zhonghui, Hu, Pengjie, Songwe Selabi, Naomie Beolle, Wandji Djouonkep, Lesly Dasilva
Format: Article
Language:English
Subjects:
Circulation
Collapse
Drilling
Drilling muds
Energy
Engineering
Environmental Science and Engineering
Exact solutions
Fluid pressure
Foundations
Fracture mechanics
Geoengineering
Geophysics/Geodesy
Geotechnical Engineering & Applied Earth Sciences
Hydraulics
Mathematical analysis
Mathematical models
Mud
Natural fracture development
Numerical models
Original Article
Pore pressure
Pore water pressure
Pressure dependence
Pressure effects
Software
Stability
Swab and surge pressure
Time dependence
Time-dependent
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Summary:Drilling engineers continue to grapple with the persistent challenge of maintaining wellbore stability. Throughout the drilling process, the wellbore pressure experiences fluctuations induced by various factors such as swab and surge pressure, leading to potential instability. This study employs a numerical approach, utilizing Abaqus software, to investigate the impact of swab and surge pressure on the natural fracture growth within the wellbore and the evolving pore pressure. A computational tool developed with MATLAB is then utilized to ascertain a safe operational mud window by assessing the time-dependent collapse and fracture pressures. The findings illustrated a notable increase in fracture width as a function of time in response to swab and surge pressure, with the most significant percentage increase reaching 69.92%. Notably, a 69.16% augmentation in fracture width is observed in the immediate vicinity of the wellbore following the application of swab and surge pressure. However, parameters such as fracture length, loss circulation rate, and pore fluid pressure exhibited marginal changes post-integration of swab and surge effects. The examination of the time-dependent wellbore stability after integration of swab and surge pressure indicated a narrowing of the initial mud window as a function of time, with a 14.33% increase in collapse pressure and a 13.80% decrease in fracture pressure. The numerical model verification against analytical solutions demonstrated good agreement, highlighting its potential utility in optimizing particle size for wellbore reinforcement and mitigating lost circulation through natural fracture sealing. Article highlights Fracture width as a function of time profiles increased with the swab and surge pressure; Swab and surge pressure weakly affected the fracture length, loss circulation and the pore pressure; Safe mud window narrowed with the time after integration of swab and surge pressure.
ISSN:2363-8419
2363-8427
DOI:10.1007/s40948-024-00793-7