| 1 |
Analysis of the pore structure of Longkou oil shale semicoke during fluidized bed combustion
Liu HP, Feng SY, Zhang SQ, Xuan HR, Jia CX, Wang Q
Oil Shale, 37(2), 89, 2020 |
| 2 |
Optimization of pyrolysis efficiency based on optical property of semicoke in terahertz region
Li YZ, Wu SX, Yu XL, Bao RM, Wu ZK, Wang W, Zhan HL, Zhao K, Ma Y, Wu JX, Liu SH, Li SY
Energy, 126, 202, 2017 |
| 3 |
Review of oil shale semicoke and its combustion utilization
Han XX, Kulaots I, Jiang XM, Suuberg EM
Fuel, 126, 143, 2014 |
| 4 |
THE STUDY OF HYDRATION AND CARBONATION REACTIONS AND CORRESPONDING CHANGES IN THE PHYSICAL PROPERTIES OF CO-DEPOSITED OIL SHALE ASH AND SEMICOKE WASTES IN A SMALL-SCALE FIELD EXPERIMENT
Sedman A, Talviste P, Kirsimae K
Oil Shale, 29(3), 279, 2012 |
| 5 |
Reducing CO2 emissions from oil shale semicoke smoldering combustion by varying the carbonate and fixed carbon contents
Sennoune M, Salvador S, Quintard M
Combustion and Flame, 158(11), 2272, 2011 |
| 6 |
Characterization of Chinese, American and Estonian oil shale semicokes and their sorptive potential
Kulaots I, Goldfarb JL, Suuberg EM
Fuel, 89(11), 3300, 2010 |
| 7 |
Utilization of Estonian oil shale semicoke
Trikkel A, Kuusik R, Martins A, Pihu T, Stencel JM
Fuel Processing Technology, 89(8), 756, 2008 |
