Characterization of coal using electron spin resonance : implications for the formation of inertinite macerals in the Witbank Coalfield, South Africa

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Authors

Moroeng, Ofentse Marvin
Keartland, Jonathan M.
Roberts, R.J. (James)
Wagner, Nicola J.

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SpringerOpen

Abstract

Coal contains a significant concentration of free radicals as a result of the coalification process. One of the experimental methods sensitive to the presence of radicals is electron spin resonance (ESR), and differences in ESR spectra for different macerals may provide insight into coal-forming processes. In this study, ESR data along with the H/C atomic ratio (to infer the aromatic fraction) are used to characterize coal samples with the aim of assessing a fire-origin for dominant inertinite macerals. A medium rank C bituminous Witbank No. 4 Seam Upper coal (the parent) was densityfractionated to create vitrinite-rich and inertinite-rich samples. The parent sample consists of 42 vol% vitrinite and 49 vol% inertinite. The density-fractionated samples comprise of 81 vol% total vitrinite (dominated by collotelinite and collodetrinite), and 63 vol% total inertinite (dominated by fusinite, semifusinite, and inertodetrinite). The H/C ratio is 0.74 for the inertinite-rich sample, and 0.85 for the vitrinite-rich counterpart, suggesting the former sample is more aromatic. The ESR spectra obtained for the three samples were found to fit best using a Lorentzian distribution. The fit is noticeably better for the aromatic inertinite-rich sample, for which the spectrum is symmetric. This is attributed to pronounced electron mobility and exchange interactions. The higher radical content of the inertinite-rich and parent samples is attributed to the presence of specific inertinite macerals, namely: fusinite, semifusinite, and inertodetrinite. And, owing to the greater radical content of the inertinite-rich sample, the dominant inertinite macerals are interpreted to have formed through charring of plant matter.

Description

This study is part of a PhD thesis prepared by OMM.

Keywords

Main Karoo Basin, Radical contents, Origin pathways, Charring, Fusinite, Semifusinite, Electron spin resonance (ESR), Semifusinite, Spin dynamics, Magnetic moments, Free radicals, Electrospinning, Coal deposits, Aromatization, Aromatic compounds

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Citation

Moroeng, O.M., Keartland, J.M., Roberts, R.J. et al. Characterization of coal using electron spin resonance: implications for the formation of inertinite macerals in the Witbank Coalfield, South Africa. International Journal of Coal Science & Technology (2018) 5: 385-398. https://doi.org/10.1007/s40789-018-0212-7.