GSA Annual Meeting in Indianapolis, Indiana, USA - 2018

Paper No. 94-3
Presentation Time: 9:00 AM-6:30 PM

INFLUENCE OF MACERAL ON POROSITY CHARACTERISTICS OF LITHOTYPES OF PENNSYLVANIAN HIGH VOLATILE BITUMINOUS COALS FROM THE ILLINOIS BASIN


TENG, Juan1, MASTALERZ, Maria2 and HAMPTON, LaBraun2, (1)Department of Petroleum Engineering, Chengdu University of Technology, Chengdu, 610059, China, (2)Indiana Geological and Water Survey, Indiana University, Bloomington, IN 47405

Porosity characteristics of vitrain, clarain, durain, and fusain lithotypes of the Springfield Coal Member of the Petersburg Formation and the Danville and Hymera Coal Members of the Dugger Formation from the Illinois Basin were investigated with a special emphasis on the control of coal macerals on pore-size distribution. These Pennsylvanian coals are of high volatile bituminous rank and have vitrinite reflectance ranging from 0.51 to 0.60%. The lithotypes studied show decreasing values of Brunauer-Emmett-Teller surface area, and micro- and mesopore volumes from vitrain through clarain and durain to fusain. Within the mesopore size range, vitrain and clarain are dominated by pores with the diameter of 4 to 10 nm, whereas durain and fusain have more volume of pores larger than 20 nm. In contrast to mesopores, micropore sizes are very similar for all lithotypes, averaging 1.37 to 1.39 nm. In addition to differences among lithotypes, there are significant differences in pore characteristics among the three coals studied, with the largest surface area and pore volume documented for the Hymera Coal Member, followed by the Danville and the Springfield Coal Members. Strong correlations exist between surface area, mesoporosity, and microporosity and maceral composition, with vitrinite having a very strong positive correlation, liptinite having a weak positive correlation, and inertinite having a strong negative correlation. Negative correlations of total porosity with vitrinite and liptinite contents and positive correlations with inertinite content suggest that among maceral groups, pores in inertinite contribute most to total porosity. The Fourier transform infrared spectrometry technique demonstrates that fusains from the three coals studied have higher aromaticity, higher degree of aromatic ring condensation and lower hydrocarbon potential compared to other lithotypes, whereas chemical differences between vitrain, clarain, and durain are less distinct. In addition, there is a relationship between aromaticity of the lithotypes and surface area and mesopore and micropore volumes.