| 1 - 9 |
High microscale variability in Raman thermal maturity estimates from shale organic matter
Jubb AM, Botterell PJ, Birdwell JE, Burruss RC, Hackley PC, Valentine BJ, Hatcherian JJ, Wilson SA |
| 10 - 18 |
The chemical composition of graptolite periderm in the gas shales from the Baltic Basin of Poland
Morga R, Kaminska M |
| 19 - 30 |
Molecular structure controls on micropore evolution in coal vitrinite during coalification
Liu Y, Zhu YM, Liu SM, Chen SB, Li W, Wang Y |
| 31 - 38 |
A coupled thermal-mechanical numerical model of underground coal gasification (UCG) including spontaneous coal combustion and its effects
Ekrieligoda TC, Marshall AM |
| 39 - 51 |
Formation and occurrence of organic matter-hosted porosity in shales
Inan S, Al Badairy H, Inan T, Al Zahrani A |
| 52 - 64 |
Permeability changes in coal seams: The role of anisotropy
Wang LL, Vandamme M, Pereira JM, Dangla P, Espinoza N |
| 65 - 90 |
Controls on methane sorption capacity of Mesoproterozoic gas shales from the Beetaloo Sub-basin, Australia and global shales
Sander R, Pan ZJ, Connell LD, Camilleri M, Grigore M, Yang YX |
| 91 - 112 |
Bituminous coal seams from underground mines in the Zonguldak Basin (NW Turkey): Insights from mineralogy, coal petrography, Rock-Eval pyrolysis, and meso-and microporosity
Karayigit AI, Mastalerz M, Oskay RG, Buzkan I |
| 113 - 123 |
Effects of subcritical and supercritical CO2 sorption on deformation and failure of high-rank coals
Zagorkak R, Thomas HR |
| 124 - 137 |
Oligocene-Miocene source rocks of the Zhongcang Basin: Implications for hydrocarbon potential differentiation between lake basins in Central Tibet
Ma PF, Li YL, Wang CS, Zheng L, Lv DW, Zou Y, Li S |
| 138 - 151 |
Organic petrographic analysis of artificially matured chitinozoan- and graptolite-rich Upper Ordovician shale from Hudson Bay Basin, Canada
Reyes J, Jiang C, Lavoie D, Armstrong DK, Milovic M, Robinson R |
