| 1 |
METHODS TO ESTIMATE EROSION IN SEDIMENTARY BASINS
Iyer K, Hartz EH, Schmid DW
Journal of Petroleum Geology, 44(2), 121, 2021 |
| 2 |
Quantitative geothermal interpretation of electrical resistivity models of the Rathlin Basin, Northern Ireland
Delhaye R, Rath V, Jones AG, Muller MR, Reay D
Geothermics, 77, 175, 2019 |
| 3 |
The variability of rock thermal properties in sedimentary basins and the impact on temperature modelling - A Danish example
Fuchs S
Geothermics, 76, 1, 2018 |
| 4 |
Sedimentary basin geothermal favourability mapping and power generation assessments
Palmer-Wilson K, Banks J, Walsh W, Robertson B
Renewable Energy, 127, 1087, 2018 |
| 5 |
Quantification of the impact of paleoclimates on the deep heat flux of the Paris Basin
Dentzer J, Lopez S, Violette S, Bruel D
Geothermics, 61, 35, 2016 |
| 6 |
PROSPECTS OF LITHUANIAN SILURIAN SHALE GAS, BALTIC SEDIMENTARY BASIN
Sliaupa S, Sliaupiene R, Zaludiene G, Vaskaboinikava T, Bibikava A, Evstratenko L, Kovkhuto A
Oil Shale, 33(4), 357, 2016 |
| 7 |
Porosity characteristics of the Devonian Horn River shale, Canada: Insights from lithofacies classification and shale composition
Dong T, Harris NB, Ayranci K, Twemlow CE, Nassichuk BR
International Journal of Coal Geology, 141, 74, 2015 |
| 8 |
Variation of gas flow properties in coal with probe gas, composition and fabric: Examples from western Canadian sedimentary basin
Adeboye OO, Bustin RM
International Journal of Coal Geology, 108, 47, 2013 |
| 9 |
CO2 Plume Evolution and Pressure Buildup of Large-scale CO2 Injection into Saline Aquifers in Sanzhao Depression, Songliao Basin, China
Zhao RR, Cheng JM, Zhang KN
Transport in Porous Media, 95(2), 407, 2012 |
| 10 |
Mongolian coal-bearing basins: Geological settings, coal characteristics, distribution, and resources
Erdenetsogt BO, Lee I, Bat-Erdene D, Jargal L
International Journal of Coal Geology, 80(2), 87, 2009 |
