| 1 |
Experimental evaluation of hydrodynamics and tube-to-bed heat transfer of fluidized Ilmenite ore particles at elevated pressures
McIntyre CJ, Symonds RT, Lu DY, Champagne S, Macchi A, Mehrani P
Powder Technology, 376, 697, 2020 |
| 2 |
일메나이트광의 유동층 염화반응에 대한 수치적 예측
정동규, 정은진, 이미선, 김진영, 송덕용
Clean Technology, 25(2), 107, 2019 |
| 3 |
Characterization of an ilmenite ore for pressurized chemical looping combustion
Ridha FN, Duchesne MA, Lu X, Lu DY, Filippou D, Hughes RW
Applied Energy, 163, 323, 2016 |
| 4 |
Pressurized chemical looping combustion with CO: Reduction reactivity and oxygen-transport capacity of ilmenite ore
Lu X, Rahman RA, Lu DY, Ridha FN, Duchesne MA, Tan Y, Hughes RW
Applied Energy, 184, 132, 2016 |
| 5 |
Dissociation behavior and structural of ilmenite ore by microwave irradiation
Chen G, Chen J, Guo SH, Li J, Srinivasakannan C, Peng JH
Applied Surface Science, 258(10), 4826, 2012 |
| 6 |
Developing a cost-effective synthesis of active iron oxide doped titania photocatalysts loaded with palladium, platinum or silver nanoparticles
Mahmoud MHH, Ismail AA, Sanad MMS
Chemical Engineering Journal, 187, 96, 2012 |
| 7 |
Mathematical-Modeling of Fluidized-Bed Chlorination of Rutile
Zhou L, Sohn HY
AIChE Journal, 42(11), 3102, 1996 |
| 8 |
Microstructural Changes in Several Titaniferous Materials During Chlorination Reaction
Zhou L, Sohn HY, Whiting GK, Leary KJ
Industrial & Engineering Chemistry Research, 35(3), 954, 1996 |
