Abstract
In the process of the exploitation of deep oil and gas resources, shale wellbore stability control faces great challenges under complex temperature and pressure conditions. It is difficult to reflect the micro mechanism and process of the action of inorganic salt on shale hydration with the traditional experimental evaluation technology on the macro effect of restraining shale hydration. Aiming at the characteristics of clay minerals of deep shale, the molecular dynamics models of four typical cations (K+, NH4+, Cs+ and Ca2+) inhibiting the hydration of clay minerals have been established by the use of the molecular dynamics simulation method. Moreover, the micro dynamics mechanism of typical inorganic cations inhibiting the hydration of clay minerals has been systematically evaluated, as has the law of cation hydration inhibition performance in response to temperature, pressure and ion type. The research indicates that the cations can promote the contraction of interlayer spacing, compress fluid intrusion channels, reduce the intrusion ability of water molecules, increase the negative charge balance ability and reduce the interlayer electrostatic repulsion force. With the increase in temperature, the inhibition of the cations on montmorillonite hydration is weakened, while the effect of pressure is opposite. Through the molecular dynamics simulation under different temperatures and pressures, we can systematically understand the microcosmic dynamics mechanism of restraining the hydration of clay in deep shale and provide theoretical guidance for the microcosmic control of clay hydration.
Highlights
With the continuous exploitation of shale gas, the drilling depth is gradually increasing worldwide, and deep shale gas resources have gradually become the focus of the oil and gas industry
Fully understanding the mechanism of clay hydration expansion and chemical inhibition is of great strategic significance to realize macro and micro control of deep shale hydration, maintain wellbore instability and ensure economic and effective development of shale gas
Boek et al [9] quantitatively explained the difference in swelling characteristics between Na-MMT and K-MMT and qualitatively analyzed the inhibition mechanism of organic molecules to the clay hydration with the help of grand canonical Monte Carlo (GCMC) and molecular dynamic (MD) methods
Summary
With the continuous exploitation of shale gas, the drilling depth is gradually increasing worldwide, and deep shale gas resources have gradually become the focus of the oil and gas industry. Boek et al [9] quantitatively explained the difference in swelling characteristics between Na-MMT and K-MMT and qualitatively analyzed the inhibition mechanism of organic molecules to the clay hydration with the help of grand canonical Monte Carlo (GCMC) and molecular dynamic (MD) methods In this paper, based on MD simulation method, according to the characteristics of typical clay minerals contained in deep shale, combined with the types of inorganic salinization inhibitors commonly used in the field, the molecular dynamics models for micro inhibition evaluation of four typical cations (K+ , NH4 + , Cs+ and Ca2+ ) inhibiting clay hydration were established. Processes 2021, 9, 1069 the micro mechanism of chemical inhibition effect of typical inorganic salt inhibitors on clay hydration and the temperature and pressure response characteristics were analyzed systematically and deeply
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