Thermal Decomposition Reaction Kinetics of Hematite Ore

被引:13
作者
Chen, Zhiyuan [1 ]
Zeilstra, Christiaan [2 ]
Van der Stel, Jan [2 ]
Sietsma, Jilt [1 ]
Yang, Yongxiang [1 ]
机构
[1] Delft Univ Technol, Dept Mat Sci & Engn, Mekelweg 2, NL-2628 CD Delft, Netherlands
[2] Tata Steel Europe, POB 10000, NL-1970 CA Ijmuiden, Netherlands
来源
ISIJ INTERNATIONAL | 2020年 / 60卷 / 01期
关键词
isoconversional kinetics; iron oxide; hematite; thermal decomposition; Hlsarna; LOW-TEMPERATURE REDUCTION; SOLID CARBON; ACTIVATION-ENERGIES; SMELTING SLAGS; BEHAVIOR; HYDROGEN; WUSTITE; FEO;
D O I
10.2355/isijinternational.ISIJINT-2019-129
中图分类号
TF [冶金工业];
学科分类号
0806 ;
摘要
In order to understand the thermal decomposition kinetics of hematite particles in inert atmosphere, thermogravimetriy was employed for isoconversional analysis. The kinetic triplet was estimated from the experimental data and the isothermal reaction kinetics was predicted. The results indicated that the thermal decomposition could be divided into two stages, of which the activation energies were 636 kJ/mol and 325 kJ/mol, respectively. The exponential form of pre-exponential factor, In(A/s(-1)), for the two stages were estimated to be 42.9 +/- 6.6 and 14.1 +/- 3.08. At last, the kinetic mechanism of the first stage was suggested to match Sestak-Berggren model as f(alpha)=(1 - alpha)(1.38). The relatively slow reaction rate of the second stage was due to the slag formation during the reaction.
引用
收藏
页码:65 / 72
页数:8
相关论文
共 31 条
[1]  
Achar B.N.N., 1966, P INT CLAY C JERUSAL, V2, P67
[2]  
[Anonymous], 2013, THESIS
[3]   ON THE CALCULATION OF ACTIVATION-ENERGIES USING A MODIFIED KISSINGER METHOD [J].
BOSWELL, PG .
JOURNAL OF THERMAL ANALYSIS, 1980, 18 (02) :353-358
[4]   THE CALCINATION OF DOLOMITE .1. THE KINETICS OF THE THERMAL DECOMPOSITION OF CALCITE AND OF MAGNESITE [J].
BRITTON, HTS ;
GREGG, SJ ;
WINSOR, GW .
TRANSACTIONS OF THE FARADAY SOCIETY, 1952, 48 (01) :63-69
[5]   Development of green suspension ironmaking technology based on hydrogen reduction of iron oxide concentrate: rate measurements [J].
Choi, M. E. ;
Sohn, H. Y. .
IRONMAKING & STEELMAKING, 2010, 37 (02) :81-88
[6]   QUANTITATIVE INTERPRETATION OF X-RAY-DIFFRACTION PATTERNS OF MIXTURES .1. MATRIX-FLUSHING METHOD FOR QUANTITATIVE MULTICOMPONENT ANALYSIS [J].
CHUNG, FH .
JOURNAL OF APPLIED CRYSTALLOGRAPHY, 1974, 7 (DEC1) :519-525
[7]   Computational Fluid Dynamics Simulation of the Hydrogen Reduction of Magnetite Concentrate in a Laboratory Flash Reactor [J].
Fan, De-Qiu ;
Sohn, H. Y. ;
Mohassab, Yousef ;
Elzohiery, Mohamed .
METALLURGICAL AND MATERIALS TRANSACTIONS B-PROCESS METALLURGY AND MATERIALS PROCESSING SCIENCE, 2016, 47 (06) :3489-3500
[8]   MICROSTRUCTURAL CHANGES ON THE REDUCTION OF HEMATITE TO MAGNETITE [J].
HAYES, PC ;
GRIEVESON, P .
METALLURGICAL TRANSACTIONS B-PROCESS METALLURGY, 1981, 12 (03) :579-587
[9]  
Janowski J, 1996, IRONMAK STEELMAK, V23, P479
[10]   In situ observation of reduction behavior of hematite with solid carbon and crystallographic orientation between hematite and magnetite [J].
Kashiwaya, Yoshiaki ;
Yamaguchi, Yasuhide ;
Kinoshita, Hiroshi ;
Ishii, Kuniyoshi .
ISIJ INTERNATIONAL, 2007, 47 (02) :226-233
1234