Quantitative Evaluation of Imbibition Damage Characteristics of Foaming Agent Solutions in Shale Reservoir

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Study on the Effect of High-Temperature Heat Treatment on the Microscopic Pore Structure and Mechanical Properties of Tight Sandstone

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Summary: The study investigates the changes in physical properties, mechanical properties, and microscopic pore structure characteristics of tight sandstone after high-temperature heat treatment, providing a theoretical basis for plugging removal and stimulation techniques. The experimental results show that the wave velocity and tensile strength of tight sandstone decrease nonlinearly with increasing heat treatment temperature, while permeability increases nonlinearly. Different cooling methods will affect the physical and mechanical properties, as well as the pore structure of the core samples.

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Article Energy & Fuels

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Quantitative Evaluation of Imbibition Damage Characteristics of Foaming Agent Solutions in Shale Reservoir

Related references

Experimental Study on the Pore Shape Damage of Shale Samples during the Crushing Process

Study on the Effect of High-Temperature Heat Treatment on the Microscopic Pore Structure and Mechanical Properties of Tight Sandstone

Characterization of the Dynamic Imbibition Displacement Mechanism in Tight Sandstone Reservoirs Using the NMR Technique

Investigation of drill-in fluids damage and its impact on wellbore stability in Longmaxi shale reservoir

Anisotropy rock physics model for the Longmaxi shale gas reservoir, Sichuan Basin, China

Study of meso-damage characteristics of shale hydration based on CT scanning technology

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