Libin Liu scite author profile

Understanding the behaviour of short‐chain hydrocarbons confined to porous solids informs the targeted extraction of natural resources from geological features, and underpins rational developments in separation, storage and catalytic conversion processes. Herein, we report the application of low‐field (12.7 MHz) 1H nuclear magnetic resonance (NMR) relaxation measurements to characterise ethane dynamics within mesoporous silica materials exhibiting mean pore diameters between 6 and 50 nm. Our measurements provide NMR‐based adsorption isotherms within the range 25–50 bar and at ambient temperature, incorporating the ethane condensation point (40.7 bar at our experimental temperature of 23.6 °C). The quantitative nature of the acquired data is validated via a direct comparison of NMR‐derived excess adsorption capacities with ex situ gravimetric ethane adsorption measurements, which are demonstrated to agree to within 0.2 mmol g−1 of the observed ethane capacity. NMR T2 relaxation time distributions are further demonstrated as a means to decouple interparticle and mesopore dominated adsorption phenomena, with unexpectedly rapid relaxation rates associated with interparticle ethane gas confirmed via a direct comparison with NMR self‐diffusion analysis.

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Quantitative characterization of methane adsorption in shale using low-field NMR

Yang

Connolly

Liu

et al. 2022

Journal of Natural Gas Science and Engineering

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Nonlinear characteristics analyses of particle motion for predicting flow regimes

Kang

Yang

et al. 2020

Particuology

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Libin Liu

Low-cost DETA impregnation of acid-activated sepiolite for CO2 capture

Low‐Field NMR Relaxation Analysis of High‐Pressure Ethane Adsorption in Mesoporous Silicas

Quantitative characterization of methane adsorption in shale using low-field NMR

Nonlinear characteristics analyses of particle motion for predicting flow regimes

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