| 1 |
Oil shale pyrolysis products and the fate of sulfur
Maaten B, Jarvik O, Pihl O, Konist A, Siirde A
Oil Shale, 37(1), 51, 2020 |
| 2 |
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 |
| 3 |
DETERMINATION OF THE TOTAL SULPHUR CONTENT OF OIL SHALE BY USING DIFFERENT ANALYTICAL METHODS
Maaten B, Pikkor H, Konist A, Siirde A
Oil Shale, 35(2), 144, 2018 |
| 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 |
OXYGEN INFLUENCE ON ESTONIAN KUKERSITE OIL SHALE DEVOLATILIZATION AND CHAR COMBUSTION
Loo L, Maaten B, Neshumayev D, Konist A
Oil Shale, 34(3), 219, 2017 |
| 6 |
DECOMPOSITION KINETICS OF AMERICAN, CHINESE AND ESTONIAN OIL SHALES KEROGEN
Maaten B, Loo L, Konist A, Nesumajev D, Pihu T, Kulaots I
Oil Shale, 33(2), 167, 2016 |
| 7 |
MINERAL SEQUESTRATION OF CO2 BY CARBONATION OF Ca-RICH OIL SHALE ASH IN NATURAL CONDITIONS
Konist A, Maaten B, Loo L, Neshltmayev D, Pihu T
Oil Shale, 33(3), 248, 2016 |
| 8 |
Experimental analysis of the combustion characteristics of Estonian oil shale in air and oxy-fuel atmospheres
Loo L, Maaten B, Siirde A, Pihu T, Konist A
Fuel Processing Technology, 134, 317, 2015 |
| 9 |
Cu-modified hydroxy-apatite as catalyst for Glaser-Hay C-C homo-coupling reaction of terminal alkynes
Maaten B, Moussa J, Desmarets C, Gredin P, Beaunier P, Kanger T, Toinsuaadu K, Villemin D, Gruselle M
Journal of Molecular Catalysis A-Chemical, 393, 112, 2014 |
| 10 |
CALCULATION OF THE AMOUNT OF ESTONIAN OIL SHALE PRODUCTS FROM COMBUSTION IN REGULAR AND OXY-FUEL MODE IN A CFB BOILER
Konist A, Loo L, Valtsev A, Maaten B, Siirde A, Neshumayev D, Pihu T
Oil Shale, 31(3), 211, 2014 |
