Methane Desorption–Diffusion Behaviors in Micropores of Coal under Different Water Displacement Pressures

解吸 扩散 甲烷 流离失所(心理学) 化学工程 化学 材料科学 热力学 矿物学 化学物理 环境化学 吸附 物理化学 有机化学 物理 工程类 心理学 心理治疗师
作者
Xiaoming Ni,Jingshuo Zhang,Lei Han,Xiao Liu
出处
期刊:Langmuir [American Chemical Society]
卷期号:40 (43): 23081-23093 被引量:15
标识
DOI:10.1021/acs.langmuir.4c03350
摘要

Hydraulic fracturing not only enhances the flow conductivity of coal seams but also transforms the CH 4 adsorbed in coal seams into free CH 4 and then outputs it via the desorption–diffusion process, thus improving the output quantity and efficiency of CH 4 . In this paper, taking the coal from Changping mine in Shanxi as the research object, the 3D macromolecule model of coal was established by using analytical test experiments, and the molecular dynamics simulation method of desorption and diffusion was applied to study the characteristics of methane desorption rate and diffusion behaviors under different driving water pressures through the parameters of gas–water concentration distribution, desorption and diffusion rates, and the interaction energies between the coal and the gas–liquid. The results show that the water drive can increase the desorption rate of methane. With the increase of methane adsorption pressure, the desorption effect of water drive becomes stronger and then weaker. The desorption effect of water drive was best when the methane adsorption pressure was 5 MPa and the pressure difference was 2 MPa. Generally, the water drive promoted the methane diffusion, but if the water drive time was too long, it formed a water plug, and the water drive methane inhibited the diffusion. In shallow reservoirs, water drive can obviously promote the desorption–diffusion of methane. The binding energy between CH 4 molecules is mainly composed of the repulsive force, while that between water molecules is mainly the adsorption force. In the binding energy between CH 4 molecules and coal structures, the van der Waals (VDW) force accounts for 99% of the effect; in the binding energy between water molecules and coal structures, the electrostatic force contributes 84% to ∼88% thereto. The VDW force is significantly influenced by the pressure, while the electrostatic force is slightly affected. As the water displacement differential pressure is increased, the binding energy between CH 4 molecules and coal structures decreases.
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