Mechanism Study and Performance Evaluation of Nano-Materials Used to Improve Wellbore Stability

In the drilling process of Tarim Oilfield, a representative of ultra-deep oil and gas reservoirs, there are many problems of wellbore stability/instability caused by the development of a large number of micro-fractures. According to the nano-plugging mechanism, rigid nano-SiO2 and deformable nano-pa...

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Veröffentlicht in:Sustainability 2023-03, Vol.15 (6), p.5530
Hauptverfasser: Ye, Yan, Song, Hanxuan, Zhu, Jinzhi, Zheng, Weiru, Zhou, Fujian, Zhou, Guangxu, Zhang, Qingwen
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Sprache:eng
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Zusammenfassung:In the drilling process of Tarim Oilfield, a representative of ultra-deep oil and gas reservoirs, there are many problems of wellbore stability/instability caused by the development of a large number of micro-fractures. According to the nano-plugging mechanism, rigid nano-SiO2 and deformable nano-paraffin emulsion are added to the drilling fluid to improve the plugging rate. The effect of nanomaterials on the mechanical properties of limestone in the Karatal Formation was evaluated through a triaxial mechanical experiment, and it was found that rigid nano-SiO2 can have a better plugging effect under high formation pressure. It can increase the compressive strength of the limestone core by 10.32% and the cohesion of the core by 12.19%, and the internal friction angle of the core was increased from 25.67° to 26.39°. The internal structure of the core after nano-blocking was observed using CT scanning, and the fracture distribution state of the core before and after plugging and the fracture characteristics of the core under the pressure gradient were obtained, which confirmed that nano-SiO2 can effectively solve the fracture problem of deep limestone caused by micro-fractures.
ISSN:2071-1050
2071-1050
DOI:10.3390/su15065530