61 |
Experimental study on separation of oil shale and semi-coke by fluidization principle Lu ZY, Lv T, Liu LT, Liu GW Oil Shale, 36(4), 449, 2019 |
62 |
Kinetic study on the pyrolysis behavior of Jimsar oil shale Pan N, Li DN, Lu W, Dai FQ Oil Shale, 36(4), 462, 2019 |
63 |
Numerical simulation of in situ exploitation of oil shale by injecting high-temperature steam Yang D, Zhao YS, Kang ZQ Oil Shale, 36(4), 483, 2019 |
64 |
Biodegradation characteristics of oil shale in the Permian Lucaogou Formation in the southeast of the Junggar Basin, China: implications from organic geochemistry Zhang MM, Li Z Oil Shale, 36(4), 501, 2019 |
65 |
Solar pyrolysis of oil shale samples under different operating conditions Alamayreh MI, Jaber JO Oil Shale, 36(4), 514, 2019 |
66 |
Reactivities of American, Chinese and Estonian oil shale semi-cokes and Argonne premium coal chars under oxy-fuel combustion conditions Culin C, Tente K, Konist M, Maaten B, Loo L, Suuberg E, Kulaots I Oil Shale, 36(3), 353, 2019 |
67 |
Combustion reaction kinetics of char from in-situ or ex-situ pyrolysis of oil shale Linghu RX, Zhang YM, Zhao MX, Huang L, Sun GG, Zhang S Oil Shale, 36(3), 392, 2019 |
68 |
Aggregate production from burnt oil shale and CO2-an Estonian perspective Berber H, Tamm K, Leinus ML, Kuusik R, Uibu M Oil Shale, 36(3), 431, 2019 |
69 |
The diffusion and separation of the oil shale in the compound dry beneficiation bed Yu XD, Luo ZF, Li HB, Zhang JX, Gan DQ Powder Technology, 355, 72, 2019 |
70 |
Effect of a draft tube on oil shale particle drying process of a spouted bed: CPFD simulation studies Zhang LD, Wang ZJ, Li SH, Qin H Advanced Powder Technology, 29(9), 2255, 2018 |