2023
DOI: 10.1021/acs.langmuir.2c03485
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Interfacial Adsorption Kinetics of Methane in Microporous Kerogen

Abstract: Rapid declines in unconventional shale production arise from the poorly understood interplay between gas transport and adsorption processes in microporous organic rock. Here, we use highfidelity molecular dynamics (MD) simulations to resolve the timevarying adsorption of methane gas in realistic organic rock samples, known as kerogen. The kerogen samples derive from various geological shale fields with porosities ranging between 20% and 50%. We propose a kinetics sorption model based on a generalized solution … Show more

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Cited by 3 publications
(1 citation statement)
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“…Compared to Type I kerogen, Types II2 and III have stronger adsorption capacity for methane (Chalmers and Bustin, 2008). The more aromatic structures in Type III kerogen enhance the binding ability between kerogen and methane molecules, thereby enhancing the adsorption capacity of shale (Tian et al, 2017;Wang et al, 2023b). This may be an important reason for the high gas adsorption capacity of transitional shale.…”
Section: Toc and Mineral Compositionmentioning
confidence: 99%
“…Compared to Type I kerogen, Types II2 and III have stronger adsorption capacity for methane (Chalmers and Bustin, 2008). The more aromatic structures in Type III kerogen enhance the binding ability between kerogen and methane molecules, thereby enhancing the adsorption capacity of shale (Tian et al, 2017;Wang et al, 2023b). This may be an important reason for the high gas adsorption capacity of transitional shale.…”
Section: Toc and Mineral Compositionmentioning
confidence: 99%