화학공학소재연구정보센터
검색결과 : 324건
No. Article
71 Iron ore sinter structure development under realistic thermal conditions
Liu DM, Evans G, Loo CE
Chemical Engineering Research & Design, 130, 129, 2018
72 Modelling and analysis of the combustion behaviour of granulated fuel particles in iron ore sintering
Zhao JP, Loo CE, Zhou H, Yuan JL, Li XB, Zhu YY, Yang GH
Combustion and Flame, 189, 257, 2018
73 The Relationship between Sinter Mix Composition and Flame Front Properties by a Novel Experimental Approach
Zhou H, Cheng M, Liu ZH, Zhou MX, Liu RP, Cen KF
Combustion Science and Technology, 190(4), 721, 2018
74 Study on intrinsic reaction behavior and kinetics during reduction of iron ore pellets by utilization of biochar
Hu Q, Yao DD, Xie YP, Zhe YJ, Yang HP, Chen YQ, Chen HP
Energy Conversion and Management, 158, 1, 2018
75 Evaluation of column flotation froth behavior by image analysis: effects of operational factors in desulfurization of iron ore concentrate
Nakhaei F, Irannajad M, Mohammadnejad S
Energy Sources Part A-recovery Utilization and Environmental Effects, 40(19), 2286, 2018
76 Production of light aromatic hydrocarbons by catalytic cracking of coal pyrolysis vapors over natural iron ores
He L, Hui HL, Li SG, Lin WG
Fuel, 216, 227, 2018
77 Effect of iron ore type on the thermal behaviour and kinetics of coal-iron ore briquettes during coking
Xu RS, Dai BW, Wang W, Schenk J, Xue ZL
Fuel Processing Technology, 173, 11, 2018
78 The effect of disintegrated iron-ore pellet dust on deposit formation in a pilot-scale pulverized coal combustion furnace. Part I: Characterization of process gas particles and deposits
Sefidari H, Lindblom B, Wiinikka H, Nordin LO, Mouzon J, Bhuiyan IU, Ohman M
Fuel Processing Technology, 177, 283, 2018
79 The effect of disintegrated iron-ore pellet dust on deposit formation in a pilot-scale pulverized coal combustion furnace. Part II: Thermochemical equilibrium calculations and viscosity estimations
Sefidari H, Lindblom B, Wiinikka H, Nordin LO, Lennartsson A, Mouzo J, Bhuiyan IU, Ohman M
Fuel Processing Technology, 180, 189, 2018
80 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