| 1 |
A high-efficiency utilization of coke-oven plant coke ash for the preparation of coke ash emulsion slurry
Fan YY, Wang RQ, Li XL, Xiang J, Shao Q, Meng S, Chen C, Yang Q, Liang P, Sun HW
Fuel, 245, 139, 2019 |
| 2 |
Ash fusion characteristics during co-gasification of biomass and petroleum coke
Xiong QA, Li JZ, Guo S, Li G, Zhao JT, Fang YT
Bioresource Technology, 257, 1, 2018 |
| 3 |
Investigation into the effects of ash-free coal binder and torrefied biomass addition on coke strength and reactivity
Kim GM, Lisandy KY, Isworo YY, Kim JH, Jeon CH
Fuel, 212, 487, 2018 |
| 4 |
A molecular dynamic simulation on the factors influencing the fluidity of molten coke ash during alkalization with K(2)0 and Na(2)0
Li KJ, Khanna R, Bouhadja M, Zhang JL, Liu ZJ, Su BX, Yang TJ, Sahajwall V, Singh CV, Barati M
Chemical Engineering Journal, 313, 1184, 2017 |
| 5 |
Influence of SiO2 reduction on the local structural order and fluidity of molten coke ash in the high temperature zone of a blast furnace. A molecular dynamics simulation investigation
Li KJ, Bouhadja M, Khanna R, Zhang JL, Liu ZJ, Zhang YP, Yang TJ, Sahajwalla V, Yang YD, Barati M
Fuel, 186, 561, 2016 |
| 6 |
Mineral matter crystallization and crack formation in tuyere coke
Gornostayev S, Harkki J
Fuel, 85(7-8), 1047, 2006 |
| 7 |
Low cost catalytic sorbents for NOx reduction. 3. NO reduction tests using NH3 as reducing agent
Lazaro MJ, Galvez ME, Suelves I, Moliner R, Vassilev SV, Braekman-Danheux C
Fuel, 83(7-8), 875, 2004 |
