1 |
A Comparison Study of Subspace Identification of Blast Furnace Ironmaking Process Zhou HY, Wu P Journal of Chemical Engineering of Japan, 53(9), 540, 2020 |
2 |
Application of GPU-DEM simulation on large-scale granular handling and processing in ironmaking related industries Gan JQ, Evans T, Yu AB Powder Technology, 361, 258, 2020 |
3 |
Reduction of mild-dehydrated, low-grade iron ore by ethanol Kurniawan A, Abe K, Ohashi K, Nomura T, Akiyama T Fuel Processing Technology, 178, 156, 2018 |
4 |
Effects of coal and iron ore blending on metallurgical properties of iron coke hot briquette Wang HT, Zhao W, Chu MS, Liu ZG, Tang J, Ying ZW Powder Technology, 328, 318, 2018 |
5 |
Direct reduction of iron ore/biomass composite pellets using simulated biomass-derived syngas: Experimental analysis and kinetic modelling Guo DB, Li YB, Cui BH, Chen ZH, Luo SP, Xiao B, Zhu HP, Hu M Chemical Engineering Journal, 327, 822, 2017 |
6 |
E-logp(O2) diagrams for ironmaking by molten oxide electrolysis Judge WD, Allanore A, Sadoway DR, Azimi G Electrochimica Acta, 247, 1088, 2017 |
7 |
Modelling the injection of upgraded brown coals in an ironmaking blast furnace Liao JH, Yu AB, Shen YS Powder Technology, 314, 550, 2017 |
8 |
Thermodynamic analysis of the partial oxidation of coke oven gas for indirect reduction of iron oxides in a blast furnace Chen WH, Hsu CL, Du SW Energy, 86, 758, 2015 |
9 |
Model study of the effect of particles structure on the heat and mass transfer through the packed bed in ironmaking blast furnace Natsui S, Takai H, Nashimoto R, Kikuchi T, Suzuki RO International Journal of Heat and Mass Transfer, 91, 1176, 2015 |
10 |
Kinetics and mechanisms of direct reduction of iron ore-biomass composite pellets with hydrogen gas Guo DB, Hu M, Pu CX, Xiao B, Hu ZQ, Liu SM, Wang X, Zhu XL International Journal of Hydrogen Energy, 40(14), 4733, 2015 |