Research on Key Parameters of Wellbore Stability for Horizontal Drilling in Offshore Hydrate Reservoirs

The South China Sea has abundant reserves of natural gas hydrates, and if developed effectively, it can greatly alleviate the pressure on the energy supply in China. But the hydrate reservoirs in the sea area are loose, shallow, porous, and have poor mechanical properties. During the drilling proces...

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Bibliographic Details
Published in:Applied sciences 2024-12, Vol.14 (23), p.10922
Main Authors: Shan, Zhengfeng, Wang, Xiansi, Li, Zeqin, Gong, Zhenggang, Ma, Nan, Zhang, Jianbo, Wang, Zhiyuan, Sun, Baojiang
Format: Article
Language:English
Subjects:
Analysis
Decomposition
Drilling and boring
Energy conservation
formation mechanical strength
Gas hydrates
horizontal well drilling
hydrate
Mechanical properties
Natural gas
Permeability
prediction model
Shear strength
Viscosity
Water
wellbore stability
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Summary:The South China Sea has abundant reserves of natural gas hydrates, and if developed effectively, it can greatly alleviate the pressure on the energy supply in China. But the hydrate reservoirs in the sea area are loose, shallow, porous, and have poor mechanical properties. During the drilling process, the invasion of drilling fluid into this kind of reservoir is likely to induce mass decomposition of gas hydrate and, in turn, a significant reduction in mechanical strength around the wellbore as well as instability of the wellbore. In this study, in light of the engineering background of exploratory wells at the South China Sea, a temperature and pressure field model in a gas hydrate reservoir at sea during open circuit drilling was established, and then, based on this model, a comprehensive model for the stability analysis of the well drilled in the hydrate reservoir at sea was constructed, both of them with errors of less than 10%. With these two models, the effects of different drilling parameters on wellbore stability were investigated. The gas and liquid produced by the decomposition of hydrates in the formation will increase the pore pressure in the formation, thereby reducing the effective stress in the formation. The closer the formation is to the wellbore, the more thorough the decomposition of hydrates in the formation and the greater the effective plastic strain. Keeping all other conditions constant, the increase in drilling fluid invasion pressure and temperature, as well as reservoir permeability, will lead to a decrease in the mechanical strength of the formation around the wellbore and an expansion of the wellbore yield zone. The results can provide a theoretical reference for the stability analysis at sea.
ISSN:2076-3417
2076-3417
DOI:10.3390/app142310922