Sorption Rate of Carbon Dioxide on Coal

Gawor, M.; Skoczylas, Norbert

doi:10.1007/s11242-013-0244-9

Cited by 26 publications

(12 citation statements)

References 22 publications

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“…A similar equation was developed by Gawor and Skoczylas (2014), although the equation is based on the heat conductivity equation and involves measurements of the heat balance of a coal-coated thermometer during the gas sorption process. Marecka and Mianowski (1993) proposed an empirical kinetic pseudo-second-order rate equation (PSOE) under isothermal-isobaric conditions based on chemometric analysis of kinetic equations describing the diffusion process in the hard coal-gas system.…”

Section: Resultsmentioning

confidence: 99%

Kinetic models assessment for swelling of coal induced by methane and carbon dioxide sorption

et al. 2016

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The ability of five kinetic equations to describe the sorption kinetics and expansion rate of solid coal samples was investigated. The conducted experiment included the measurements of sorption of methane and carbon dioxide on cuboidal hard coal samples at high pressure using volumetric method. Simultaneously the kinetics of coal sorption induced swelling was monitored. All of the approaches used to fit the experimental sorption and dilatometric data were literature-based equations. Two equations represent the traditional approach for sorption on powder and grain fractions based on the bidisperse gas transport model, and have been used to interpret and quantify the observed gas uptake rates in coal. The other three kinetic equations are the pseudo-second-order kinetic equation, Elovich equation, and stretched exponential (SE) equation. Four of the five equations are suitable to describe the kinetics of methane and carbon dioxide sorption in the porous structure of solid coal samples and the kinetics of coal expansion that accompany the sorption processes. The SE equation gave the best fit to the experimental data.

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Section: Resultsmentioning

confidence: 99%

Kinetic models assessment for swelling of coal induced by methane and carbon dioxide sorption

et al. 2016

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“…It was assumed that the only mechanism of methane emission is diffusion from coal grains (Gawor, Skoczylas [4]). The unipore diffusion model derived from Fick's second law was used…”

Section: Physical Basis Of the Model Of Methane Emission From The Spomentioning

confidence: 99%

The Use of a Unipore Diffusion Model to Describe the Kinetics of Methane Release from Coal Spoil in the Longwall Environment

Wierzbicki

Skoczylas

Kudasik

2017

Studia Geotechnica Et Mechanica

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Abstract:The unipore methane diffusion model based on the solution of the second Fick's law describes effectively the kinetics of methane release from coal grains. The knowledge of the model describing the kinetics of methane release from coal, the coalbed methane content, the sorption isotherm, the effective diffusion coefficient and the coal particle size distribution, enables the calculation of the volume of methane which is released from the coal spoil as a function of time. These assumptions became the basis for building the software that enables the analysis of methane emissions from coal during the longwall mining. Simulations were performed to determine the temporal and spatial methane inflow to the longwall. The share of methane emission from coal grains (taking into account both the emission kinetics and mass participation) of various classes has been analyzed. The results of the analysis showed that the methane from the small grains, in particular less than 0.1 mm in size, prevails. The mass fraction of these grains in the total weight does not exceed 5%. For the typical parameters determining the mining, geological and technological conditions of methane emissions at different moments of time and position of the longwall were determined.

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“…While constructing measuring equipment for the analysis of methane release from coal samples, one should take into account the following aspects of the physics of the process: the desorption proper occurs almost instantaneously (Gawor M., Skoczylas N. [3]), and the filtration flow of gas between the sorbent grains is so fast -in comparison with the diffusion occurring inside the grains (King, Ertekin, [6], Harpalani, Schraufnagel [5], Crosdale et al [2]) -that it is the diffusion process that decides about the kinetics of gas release. Thus, it can be concluded that when we observe the temporal course of methane release from a coal sample, we analyse in fact the diffusion process (Harpalani S., Chen G. [4]).…”

Section: The Model Of the Process Of Accumulation/release Of Methane mentioning

confidence: 99%

New Instruments and Methods for Analysing the Coal-Methane System

Skoczylas

Kudasik

Wierzbicki

et al. 2015

Studia Geotechnica Et Mechanica

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The authors of the present paper designed and constructed a prototype of an instrument which enables fully automated determination of the desorbable methane content and effective diffusion coefficient in underground conditions. Due to microprocessor analysis of the recorded data and the application of the mathematical model of the diffusion process, it is possible to automatically determine the amount of methane whose release from a coal sample occurred before the sample was placed within a measuring instrument. It is also possible to carry out follow-up extrapolation of the recorded data so the time duration needed to determine reliable results can be reduced. The instrument was tested and optimized, and a number of copies sufficient for performing underground tests were constructed. The concept of the instrument represents a totally new approach to the observation of gas release from a coal sample. Instead of short-period measurements, virtually the whole process of methane release from coal is registered and analysed. This is possibly due to the use of a grain fraction lower than one mm which is presently applied for the sake of evaluating the methane-bearing capacity and desorption intensity.

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Sorption Rate of Carbon Dioxide on Coal

Cited by 26 publications

References 22 publications

Kinetic models assessment for swelling of coal induced by methane and carbon dioxide sorption

Kinetic models assessment for swelling of coal induced by methane and carbon dioxide sorption

The Use of a Unipore Diffusion Model to Describe the Kinetics of Methane Release from Coal Spoil in the Longwall Environment

New Instruments and Methods for Analysing the Coal-Methane System

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