| 1 |
A TGA-MS INVESTIGATION OF THE EFFECT OF HEATING RATE AND MINERAL MATRIX ON THE PYROLYSIS OF KEROGEN IN OIL SHALE
Huang YR, Fan C, Han XX, Jiang XM
Oil Shale, 33(2), 125, 2016 |
| 2 |
EVALUATION OF THE HYDROCARBON POTENTIAL, MINERAL MATRIX EFFECT AND GAS-OIL RATIO POTENTIAL OF OIL SHALE FROM THE KABALAR FORMATION, GOYNUK, TURKEY
Sari A, Moradi AV, Kulaksiz Y, Yurtoglu AK
Oil Shale, 32(1), 25, 2015 |
| 3 |
Study of pyrochlore matrix composition effects on froth flotation by SEM-EDX
Chelgani SC, Hart B, Marois J, Ourriban M
Minerals Engineering, 30, 62, 2012 |
| 4 |
Characteristics of type III kerogen in coal-bearing strata from the Pennsylvanian (Upper Carboniferous) in the Ruhr Basin, Western Germany: Comparison of coals, dispersed organic matter, kerogen concentrates and coal-mineral mixtures
Jasper K, Krooss BM, Flajs G, Hartkopf-Froder C, Littke R
International Journal of Coal Geology, 80(1), 1, 2009 |
| 5 |
Stabilization of minerals by reaction with phosphoric acid - Evolution of model compounds
Bournonville B, Nzihou A, Sharrock P, Depelsenaire G
Process Safety and Environmental Protection, 84(B2), 117, 2006 |
| 6 |
Modelling of heavy meal vaporisation from a mineral matrix
Abanades S, Flamant G, Gauthier D
Journal of Hazardous Materials, 88(1), 75, 2001 |
| 7 |
Vitrinite reflectance anomalies in the high-volatile bituminous coals of the Gunnedah Basin, New South Wales, Australia
Gurba LW, Ward CR
International Journal of Coal Geology, 36(1), 111, 1998 |
