| 2 - 22 |
Influence of soil cover on reducing the environmental impact of spontaneous coal combustion in coal waste gobs: A review and new experimental data
Querol X, Zhuang X, Font O, Izquierdo M, Alastuey A, Castro I, van Drooge BL, Moreno T, Grimalt JO, Elvira J, Cabanas M, Bartroli R, Hower JC, Ayora C, Plana F, Lopez-Soler A |
| 23 - 33 |
Estimating long-term world coal production with logit and probit transforms
Rutledge D |
| 34 - 42 |
Revisiting Coos Bay, Oregon: A re-examination of funginite-huminite relationships in Eocene subbituminous coals
O'Keefe JMK, Hower JC |
| 43 - 48 |
A simplified permeability model for coalbed methane reservoirs based on matchstick strain and constant volume theory
Ma QA, Harpalani S, Liu SM |
| 49 - 55 |
Terpenoid composition and botanical affinity of Cretaceous resins from India and Myanmar
Dutta S, Mallick M, Kumar K, Mann U, Greenwood PF |
| 56 - 64 |
Coal swelling strain and permeability change with injecting liquid/supercritical CO2 and N-2 at stress-constrained conditions
Kiyama T, Nishimoto S, Fujioka M, Xue ZQ, Ishijima Y, Pan ZJ, Connell LD |
| 65 - 71 |
Studies of relationships between Free Swelling Index (FSI) and coal quality by regression and Adaptive Neuro Fuzzy Inference System
Khorami MT, Chelgani SC, Hower JC, Jorjani E |
| 72 - 77 |
Methane and carbon dioxide sorption/desorption on bituminous coal-Experiments on cubicoid sample cut from the primal coal lump
Czerw K |
| 78 - 90 |
Methodology for quantifying uncertainty in coal assessments with an application to a Texas lignite deposit
Olea RA, Luppens JA, Tewalt SJ |
| 91 - 102 |
Petrology, palynology and organic geochemistry of Eocene lignite of Matanomadh, Kutch Basin, western India: Implications to depositional environment and hydrocarbon source potential
Dutta S, Mathews RP, Singh BD, Tripathi SM, Singh A, Saraswati PK, Banerjee S, Mann U |
| 103 - 111 |
Factors affecting the development of the pressure differential in Upper Paleozoic gas reservoirs in the Sulige and Yulin areas of the Ordos Basin, China
Xu H, Tang DZ, Zhang JF, Yin W, Zhang WZ, Lin WJ |
| 112 - 122 |
Concentration and mode of occurrence of trace elements in marine oil shale from the Bilong Co area, northern Tibet, China
Fu XG, Wang JA, Zeng YH, Tan FW, Feng XL |
| 123 - 127 |
Early detection of spontaneous combustion of coal in underground coal mines with development of an ethylene enriching system
Xie J, Xue S, Cheng WM, Wang G |
| 128 - 142 |
Applied stress reduces the CO2 sorption capacity of coal
Hol S, Peach CJ, Spiers CJ |
| 143 - 160 |
Petrographic characteristics and depositional environment of Miocene Can coals, Canakkale-Turkey
Gurdal G, Bozcu M |
| 161 - 167 |
Effect of igneous intrusive on coal microconstituents: Study from an Indian Gondwana coalfield
Sarana S, Kar R |
| 168 - 183 |
Sedimentology and sequence stratigraphy of the Lopingian (Late Permian) coal measures in southwestern China
Wang H, Shao LY, Hao LM, Zhang PF, Glasspool IJ, Wheeley JR, Wignall PB, Yi TS, Zhang MQ, Hilton J |
| 184 - 185 |
Effect of concentration of dispersed organic matter on optical maturity parameters. Interlaboratory results of the organic matter concentration working group of the ICCP: Discussion
Sahay VK |
| 186 - 190 |
Notes on the origin of inertinite macerals in coals: Funginite associations with cutinite and suberinite
Hower JC, O'Keefe JMK, Eble CF, Volk TJ, Richardson AR, Satterwhite AB, Hatch RS, Kostova IJ |
