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Journal of Mining ScienceVolume 52, Issue 1, 1 January 2016, Pages 87-101

Gas diffusion coefficient in coal: calculation of tangent slope accuracy through the inflection point determination(Article)

  • aFernando Pessoa University (UFP), UFP Energy, Environment and Health Research Unit (FP-ENAS), Energy, Environment and Environmental & Public Health Research Laboratories (3ERL), Praça de 9 de Abril 349, Oporto, 4249-004, Portugal
  • bAcademia das Ciências de Lisboa, Rua da Academia das Ciências 19, Lisbon, 1249-122, Portugal

Abstract

This investigation aims to develop an accurate method to calculate the tangent slope (b) - a fundamental parameter to calculate gas diffusion coefficients under different pressures - using inflection point determinations. The authors also studied the different tangent slope behaviours depending on the experimental gas sorption used. The single Langmuir model for individual gases and the extended Langmuir model, for multicomponent gas mixtures were applied to fit experimental gas sorption isotherm data. Two coals were selected in order to minimize and/or avoid the maceral composition and vitrinite mean random reflectance effects. Samples were submitted to three different gas compositions, viz. 99.999% CH4; 99.999% CO2; and a gas mixture containing 74.99% CH4 + 19.99% CO2 + 5.02% N2. Results showed that the first and the second derivatives calculated to define the first inflection points represent exactly the final limit of tangent slopes. © 2016, Pleiades Publishing, Ltd.

Author keywords

Diffusiondiffusion coefficientinflection pointsorptiontangent slope

Indexed keywords

Engineering controlled terms:Carbon dioxideCoalDiffusionDiffusion in gasesGas mixturesSorption
Engineering uncontrolled termsDifferent pressuresExtended Langmuir modelGas sorption isothermsInflection pointsMaceral compositionMulticomponent gas-mixturesSecond derivativestangent slope
Engineering main heading:Gases
  • ISSN: 10627391
  • Source Type: Journal
  • Original language: English
  • DOI: 10.1134/S1062739116010162
  • Document Type: Article
  • Publisher: Springer New York LLC

  Dinis, M.A.P.; Fernando Pessoa University (UFP), UFP Energy, Environment and Health Research Unit (FP-ENAS), Energy, Environment and Environmental & Public Health Research Laboratories (3ERL), Praça de 9 de Abril 349, Oporto, Portugal;
© Copyright 2017 Elsevier B.V., All rights reserved.

Cited by 3 documents

Zhokh, A.A. , Strizhak, P.E.
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Qin, Z. , Jiang, Y. , Zheng, Y.
Diffusion characteristics of SF 6 /N 2 gas mixtures based on molecular dynamics
(2018) Journal of Advanced Oxidation Technologies
Rodrigues, C.F.A. , Da Silva, J.M.M. , Dinis, M.A.P.
Effect of gas compressibility factor estimation in coal sorption isotherms accuracy
(2018) International Journal of Oil, Gas and Coal Technology
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