| 1 |
CALCULATION ANALYSIS OF SHALE OIL AND POWER COGENERATION
Lausmaa T, Ots A, Poobus A, Dedov A
Oil Shale, 36(1), 19, 2019 |
| 2 |
SOLID HEAT CARRIER OIL SHALE RETORTING TECHNOLOGY WITH INTEGRATED CFB TECHNOLOGY
Neshumayev D, Pihu T, Siirde A, Jarvik O, Konist A
Oil Shale, 36(2), 99, 2019 |
| 3 |
ALKALI ACTIVATION OF ESTONIAN CA-RICH OIL SHALE ASHES: A SYNTHESIS
Paaver P, Paiste P, Liira M, Kirsimae K
Oil Shale, 36(2), 214, 2019 |
| 4 |
CHARACTERIZATION OF THE PYROLYTIC WATER FROM SHALE OIL INDUSTRY
Maaten B, Jarvik O, Loo L, Konist A, Siirde A
Oil Shale, 35(4), 365, 2018 |
| 5 |
Experimental study of kukersite oil shale pyrolysis by solid heat carrier
Gerasimov G, Khaskhachikh V, Potapov O
Fuel Processing Technology, 158, 123, 2017 |
| 6 |
Co-pyrolysis performance of coal and its direct coal liquefaction residue with solid heat carrier
Li BF, Li XH, Li WY, Feng J
Fuel Processing Technology, 166, 69, 2017 |
| 7 |
Secondary reactions in oil shale pyrolysis by solid heat carrier in a moving bed with internals
Lai DG, Shi Y, Geng SL, Chen ZH, Gao SQ, Zhan JH, Xu GW
Fuel, 173, 138, 2016 |
| 8 |
Semi-coke as solid heat carrier for low-temperature coal tar upgrading
Li XH, Ma JS, Li LL, Li BF, Feng J, Turmel W, Li WY
Fuel Processing Technology, 143, 79, 2016 |
| 9 |
Simulation of large coal particles pyrolysis by circulating ash heat carrier toward the axial dimension of the moving bed
Zhang YQ, Zhu JL, Wang XH, Zhang XW, Zhou SX, Liang P
Fuel Processing Technology, 154, 227, 2016 |
| 10 |
Pyrolysis of oil shale by solid heat carrier in an innovative moving bed with internals
Lai DG, Chen ZH, Shi Y, Lin LX, Zhan JH, Gao SQ, Xu GW
Fuel, 159, 943, 2015 |
