| 1 |
Evolution profile of gases during coal carbonization and relationship between their amounts and the fluidity or coke strength
Mochizuki Y, Ono Y, Tsubouchi N
Fuel, 237, 735, 2019 |
| 2 |
An index of fluidity-temperature area for evaluating cohesiveness of coking coal by Gieseler fluidity characterization
Yang GZ, Shi T, Zhang QF, Cao YP, Zhang WJ, Wu XC, Li J, Yang JH
Fuel Processing Technology, 177, 1, 2018 |
| 3 |
Modelling the Gieseler fluidity of coking coals modified by multicomponent plastic wastes
Gayo F, Garcia R, Diez MA
Fuel, 165, 134, 2016 |
| 4 |
Application and thermal properties of hydrogen-rich bark coal
Wang SQ, Tang YG, Schobert HH, Jiang D, Sun YB, Guo YA, Su YF, Yang SP
Fuel, 162, 121, 2015 |
| 5 |
A thermal behavior study of Chinese coals with high hydrogen content
Wang SQ, Tang YG, Schobert HH, Mitchell GD, Liao FR, Liu ZZ
International Journal of Coal Geology, 81(1), 37, 2010 |
| 6 |
In-Situ H-1-NMR Investigation of Particle-Size, Mild Oxidation, and Heating Regime Effects on Plasticity Development During Coal Carbonization
Marotovaler MM, Andresen JM, Snape CE
Energy & Fuels, 11(1), 236, 1997 |
