页岩气在CaCO₃(100)表面吸附的第一性原理计算

First-principles calculation of adsorption of shale gas on CaCO3 (100) surfaces.

作者信息

Luo Qiang, Pan Yikun, Guo Ping, Wang Zhouhua, Wei Na, Sun Pengfei, Liu Yuxiao

机构信息

School of Science, Southwest Petroleum University, Chengdu - PR China.

State Key Laboratory of Oil and Gas Reservoir Geology and Exploitation, Southwest Petroleum University, Chengdu - PR China.

出版信息

J Appl Biomater Funct Mater. 2017 Jun 16;15(Suppl. 1):e45-e51. doi: 10.5301/jabfm.5000352.

DOI:10.5301/jabfm.5000352

PMID:28574100

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6469267/

Abstract

BACKGROUND

To demonstrate the adsorption strength of shale gas to calcium carbonate in shale matrix, the adsorption of shale gas on CaCO3 (100) surfaces was studied using the first-principles method, which is based on the density functional theory (DFT).

METHODS

The structures and electronic properties of CH4, C2H6, CO2 and N2 molecules were calculated by the generalized gradient approximation (GGA), for a coverage of 1 monolayer (ML). Under the same conditions, the density of states (DOS) of CaCO3 (100) surfaces before and after the adsorption of shale gas molecules at high-symmetry adsorption sites were compared.

RESULTS

The results showed that the adsorption energies of CH4, C2H6, CO2 and N2 on CaCO3 (100) surfaces were between 0.2683 eV and -0.7388 eV. When a CH4 molecule was adsorbed at a hollow site and its 2 hydrogen atoms were parallel to the long diagonal (H3) on the CaCO3 (100) surface, it had the most stable adsorption, and the adsorption energy was only -0.4160 eV. The change of adsorption energy of CH4 was no more than 0.0535 eV. Compared with the DOS distribution of CH4 before adsorption, it shifted to the left overall after adsorption. At the same time, the partial density of states (PDOS) curves of CaCO3 (100) surfaces before and after adsorption basically overlapped.

CONCLUSIONS

This work showed that the adsorption effect of shale gas on calcium carbonate is very weak, and the adsorption is physisorption at the molecular level.

摘要

背景

为了证明页岩气在页岩基质中对碳酸钙的吸附强度，采用基于密度泛函理论（DFT）的第一性原理方法研究了页岩气在CaCO3（100）表面的吸附情况。

方法

采用广义梯度近似（GGA）计算了覆盖度为1单层（ML）时CH4、C2H6、CO2和N2分子的结构和电子性质。在相同条件下，比较了页岩气分子在高对称吸附位点吸附前后CaCO3（100）表面的态密度（DOS）。

结果

结果表明，CH4、C2H6、CO2和N2在CaCO3（100）表面的吸附能在0.2683 eV至-0.7388 eV之间。当一个CH4分子吸附在空心位点且其2个氢原子与CaCO3（100）表面的长对角线（H3）平行时，吸附最稳定，吸附能仅为- 0.4160 eV。CH4吸附能的变化不超过0.0535 eV。与吸附前CH4的DOS分布相比，吸附后整体向左移动。同时，吸附前后CaCO3（100）表面的分态密度（PDOS）曲线基本重叠。

结论

这项工作表明，页岩气对碳酸钙的吸附作用非常弱，且在分子水平上的吸附为物理吸附。

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页岩气在CaCO₃(100)表面吸附的第一性原理计算

First-principles calculation of adsorption of shale gas on CaCO3 (100) surfaces.

作者信息

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSIONS

背景

方法

结果

结论

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