Coal petrology and genesis of Jurassic coal in the Ordos Basin, China

Ao, Weihua; Huang, Wenhui; Weng, Chengmin; Xiao, Xiuling; Liu, Dameng; Tang, Xiuyi; Chen, Ping; Zhao, Zhigen; Wan, Huan; Finkelman, Robert B.

doi:10.1016/j.gsf.2011.09.004

Cited by 36 publications

(16 citation statements)

References 5 publications

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“…Resinite largely accounts for the liptinite in the Lafia-Obi coal, is co-equal with sporinite in the Enugu coal and nearly equal to sporinite in the Okaba coal (total liptinite of 7.5%, on the mineral-free basis). The liptinite distribution pattern could be attributed to changes in vegetation and freshwater conditions in the depositional environment (Ao et al 2012). The relatively high vitrinite and low inertinite in the coal seam from Benue Trough indicates that anaerobic condition of deposition i.e.…”

Section: Organic Petrographymentioning

confidence: 99%

Petrology, physicochemical and thermal analyses of selected cretaceous coals from the Benue Trough Basin in Nigeria

Akinyemi

Adebayo

Nyakuma

et al. 2020

Int J Coal Sci Technol

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Abundant coal resources that were previously neglected due to a crude oil boom need revitalisation and integration into the national electricity mix to address the energy demands of the Nigerian population. Selected coal samples from the Benue Trough sedimentary basin in Nigeria were examined by various techniques, including proximate and ultimate analyses, organic petrography, Fourier transform infrared ray spectroscopy, and thermogravimetric analysis. Based on vitrinite reflectance, the Lafia-Obi (OLB), Garin Maiganga (GMG), Imiegba (IMG), and Okaba (OKB) coals are classified as subbituminous, while the Lamja1 (LMJ1), Lamja2 (LMJ2) and Chikila (CHK) coals are high volatile B bituminous. The Enugu (ENG) coal is on the boundary between subbituminous and high volatile C bituminous. Organic petrographic results indicate vitrinite and fusinite contents steadily increase from the Lower Benue Trough coals to the Upper Benue Trough coals, while semifusinite and total mineral contents follow a reverse pattern. Thermal decomposition occurred in three stages, i.e., drying, devolatilization, and coke formation above 700°C; and the coal reactivity follows the following order, ENG [IMG[IGH[CHK[LMJ[OKB[GMG[LFB. The higher temperatures (above 900°C) are required to decompose the coals for efficient energy recovery. The LMJ1, LMJ2, OLB, CHK, GMG, and OKB coals can be exploited for electricity power generation. However, the Imeagha and Enugu coals are best suitable for both cement and power generation.

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Section: Organic Petrographymentioning

confidence: 99%

Petrology, physicochemical and thermal analyses of selected cretaceous coals from the Benue Trough Basin in Nigeria

Akinyemi

Adebayo

Nyakuma

et al. 2020

Int J Coal Sci Technol

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“…Another possibly reason is that the Liptinite/Exinite has ne grain size, occurs in other components, and it is always difficult to analyze accurately. 24 3.2 Pore structure by nitrogen adsorption Liquid nitrogen adsorption method was used to study the inhomogeneous pore surface structure of coal, the specic surface area was calculated with BET method, the pore volume was calculated with the BJH equation. To better understand the effects of pore structure on the gas desorption kinetics, a combined classication from IUPAC 25 and Hodot 26 for coal pore size was used in this work: ultra-micropores (<10 nm), mesopores (10-100 nm), macropores (>100 nm).…”

Section: Proximate and Petrographic Analysis Of Coal Samplesmentioning

confidence: 99%

A Langmuir-like desorption model for reflecting the inhomogeneous pore structure of coal and its experimental verification

Jiang

Wang

Yuan³

2015

RSC Adv.

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A Langmuir-like model was established to describe the desorption kinetics of methane in coal with inhomogeneous pore structure. Two Chinese coal samples were selected to study the initial CH 4 desorption rate in coals with the volumetric method under five equilibrium pressures. The results show that the pressure has a significant influence on desorption kinetics of methane in coal. At a constant temperature, the desorption volume increases with pressure. And at a given desorption time, the desorption volume appears to have a Langmuir-like relationship with pressure. Also, the relationship between the parameters in the Langmuir-like model and desorption time is a power function. Thus, we can obtain the changing law of desorption volume with the equilibrium pressure and the desorption time from a Langmuir-like model. This model is a valuable option to the prediction of lost gas content and identification of coal and gas outburst.

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“…The period of the Carboniferous to the Triassic is the most important stage in the burial history of coal-forming during stable subsidence of the Ordos Basin (Ao et al, 2012). After that, approximately 3000 m of continuous sedimentary strata were deposited in the late Permian-Triassic.…”

Section: Tectonic Evolutionmentioning

confidence: 99%

Preliminary evaluation of gas content of the No. 2 coal seam in the Yanchuannan area, southeast Ordos basin, China

Cai

Liu

Keming

et al. 2014

Journal of Petroleum Science and Engineering

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Coal petrology and genesis of Jurassic coal in the Ordos Basin, China

Cited by 36 publications

References 5 publications

Petrology, physicochemical and thermal analyses of selected cretaceous coals from the Benue Trough Basin in Nigeria

Petrology, physicochemical and thermal analyses of selected cretaceous coals from the Benue Trough Basin in Nigeria

A Langmuir-like desorption model for reflecting the inhomogeneous pore structure of coal and its experimental verification

Preliminary evaluation of gas content of the No. 2 coal seam in the Yanchuannan area, southeast Ordos basin, China

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