| 1 |
One-dimensional model of heat-recovery, non-recovery coke ovens Part V: Coking-bed sub-model using an inverse procedure
Buczynski R, Weber R, Kim R, Schwoppe P
Fuel, 225, 443, 2018 |
| 2 |
A study on the structural transition in the plastic layer during coking of Australian coking coals using Synchrotron micro-CT and ATR-FTIR
Lee S, Yu JL, Mahoney M, Tremain P, Moghtaderi B, Tahmasebi A
Fuel, 233, 877, 2018 |
| 3 |
Novel carbon-rich additives preparation by degradative solvent extraction of biomass wastes for coke-making
Zhu XQ, Li X, Xiao L, Zhang XY, Tong S, Wu C, Ashida R, Liu WQ, Miura K, Yao H
Bioresource Technology, 207, 85, 2016 |
| 4 |
One-dimensional model of heat-recovery, non-recovery coke ovens. Part I: General description and hydraulic network sub-model
Buczynski R, Weber R, Kim R, Schwoppe P
Fuel, 181, 1097, 2016 |
| 5 |
One-dimensional model of heat-recovery, non-recovery coke ovens Part IV: Numerical simulations of the industrial plant
Buczynski R, Weber R, Kim R, Schwoppe P
Fuel, 181, 1151, 2016 |
| 6 |
Modelling and simulation of stamp-charged coke making by 2-D discrete element method
Sand A, Rosenkranz J, Kuyumcu HZ
Advanced Powder Technology, 24(6), 1039, 2013 |
| 7 |
A novel technique for assessing the coking potential of coals/coal blends for non-recovery coke making process
Tiwari HP, Banerjee PK, Saxena VK
Fuel, 107, 615, 2013 |
| 8 |
China's coke industry: Recent policies, technology shift, and implication for energy and the environment
Huo H, Lei Y, Zhang Q, Zhao LJ, He KB
Energy Policy, 51, 397, 2012 |
| 9 |
Study on a multifunctional energy system producing coking heat, methanol and electricity
Sun SE, Jin HG, Gao L, Han W
Fuel, 89(7), 1353, 2010 |
| 10 |
Development of coal petrography applied in technical processes at the Bergbau-Forschung/DMT during the last 50 years
Steller M, Arendt P, Kuhl H
International Journal of Coal Geology, 67(3), 158, 2006 |
