| 3 - 13 |
Sulfur isotopic composition of superhigh-organic-sulfur coals from the Chenxi coalfield, southern China
Li WW, Tang YG |
| 14 - 23 |
Compositional and isotopic changes in expelled and residual gases during anhydrous closed-system pyrolysis of hydrogen-rich Eocene subbituminous coal
Takahashi KU, Suzuki N, Saito H |
| 24 - 41 |
Dynamic monitoring of coalbed methane reservoirs using Super-Low Frequency electromagnetic prospecting
Wang N, Qin QM, Chen L, Bai YB, Zhao SS, Zhang CY |
| 42 - 55 |
Mineralogy and geochemistry of coal wastes from the Starzykowiec coal-waste dump (Upper Silesia, Poland)
Ciesielczuk J, Misz-Kennan M, Hower JC, Fabianska MJ |
| 56 - 74 |
Organic petrology, geochemistry, gas content and gas composition of Middle Pennsylvanian age coal beds in the Eastern Interior (Illinois) Basin: Implications for CBM development and carbon sequestration
Mardon SM, Eble CF, Hower JC, Takacs K, Mastalerz M, Bustin RM |
| 75 - 87 |
Physical, mineralogical and wetting characteristics of dusts from Interior Basin coal mines
Kollipara VK, Chugh YP, Mondal K |
| 88 - 99 |
Outlining of high quality coking coal by concentration-volume fractal model and turning bands simulation in East-Parvadeh coal deposit, Central Iran
Afzal P, Alhoseini SH, Tokhmechi B, Ahangaran DK, Yasrebi AB, Madani N, Wetherelt A |
| 100 - 110 |
Discrete element modelling of deformation and damage of a roadway driven along an unstable goaf - A case study
Gao FQ, Stead D, Kang HP, Wu YZ |
| 111 - 113 |
Comment on "Formation of nanoporous pyrobitumen residues during maturation of the Barnett Shale (Fort Worth Basin)" by Bernard et al. (2012)
Reed RM, Loucks RG, Ruppel SC |
| 114 - 115 |
Reply to comment on "Formation of nanoporous pyrobitumen residues during maturation of the Barnett Shale (Fort Worth Basin)"
Bernard S, Horsfield B |
