Zhenghuai Guo scite author profile

This paper presents an experimental and modelling study of the adsorption/desorption of pure gases CH 4 , CO 2 and N 2 and their binary and ternary mixtures on coal samples obtained from southeast Qinshui Basin, China. Results show that the adsorbed amounts of N 2 , CH 4 and CO 2 have approximate ratios of 1.0:1.3:2.4, respectively. No significant hysteresis from adsorption to desorption is observed for pure N 2 and CH 4 whereas significant hysteresis is measured for CO 2 in CO 2 -CH 4 and CO 2 -CH 4 -N 2 mixtures and CH 4 in the N 2 -CH 4 mixture. The experimental observations are modelled using three different models, namely the extended Langmuir (EL), the Langmuir-based ideal adsorbed solution (L-IAS) and the Dubinlin-Radushkevich-based ideal adsorbed solution (D-R-IAS). The models predict well the experimental observations for desorption tests. But the measurements for the low adsorbate capacity in binary and ternary mixtures are overestimated by the prediction models. It is found that the EL model predicts the CO 2 -CH 4 desorption test better while the D-R-IAS model is the best model for the CO 2 -CH 4 -N 2 adsorption.

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A laboratory study of the effect of creep and fines migration on coal permeability during single-phase flow

Guo

Hussain

2018

International Journal of Coal Geology

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An NMR-assisted laboratory investigation of coal fines migration in fracture proppants during single-phase water production

Guo

Kang

Le-Hussain

2023

Fuel

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Zhenghuai Guo

Permeability variation associated with fines production from anthracite coal during water injection

Physical and analytical modelling of permeability damage in bituminous coal caused by fines migration during water production

Adsorption/Desorption Characteristics for Methane, Nitrogen and Carbon Dioxide of Coal Samples from Southeast Qinshui Basin, China

A laboratory study of the effect of creep and fines migration on coal permeability during single-phase flow

An NMR-assisted laboratory investigation of coal fines migration in fracture proppants during single-phase water production

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