Modeling of biochar composite briquette reaction in blast furnace

被引:1
|
作者
Tang, Huiqing [1 ]
Sun, Yanjun [1 ]
Yu, Zhi [1 ]
机构
[1] Univ Sci & Technol Beijing, State Key Lab Adv Met, Beijing 100083, Peoples R China
来源
CANADIAN METALLURGICAL QUARTERLY | 2022年 / 61卷 / 03期
基金
中国国家自然科学基金;
关键词
Biochar; composite briquette; blast furnace; ironmaking; modeling; IRON-ORE; NUMERICAL-ANALYSIS; CARBON; BIOMASS; REDUCTION; TEMPERATURE; CHARCOAL;
D O I
10.1080/00084433.2022.2044686
中图分类号
TF [冶金工业];
学科分类号
0806 ;
摘要
In this study, the reaction behavior of biochar composite briquette (BCB) in an actual blast furnace (BF) was investigated by modeling. The prepared BCB contained 11.1 wt% carbon, 72.7 wt% magnetite, 11.25 wt% wustite, 0.77 wt% metallic iron, and 4.67 wt% gangue. A reaction model for single BCB in BF was developed and validated using the results of four isothermal scenarios. Then, the reaction behavior of BCB along the mid-radial solid flowing path in a 2500 m(3) BF was analyzed. The results show that the developed model was reliable. In the BF, reactions of BCB mainly included three stages and they were reduction by BF gas (473-853 K), reduction by BF gas, partial self-reduction (853-953 K), and full self-reduction (953-1150 K). The simulation results also indicated that, when a large amount of BCB was charged into BF, in the temperature range with BCB self-reduction, the local gas utilisation of BF gas was increased; and the BCB self-reduction had a positive influence on lowering the temperature level of thermal reserve zone. Modelisation de la reaction des briquettes composites de biocharbon dans un haut fourneau Dans cette recherche, on a etudie par modelisation le comportement reactionnel de briquettes composites de biocharbon (BCB) dans le haut fourneau. La BCB preparee contenait 11.1% en poids de carbone, 72.7% en poids de magnetite, 11.25% en poids de wustite, 0.77% en poids de fer metallique et 4.67% en poids de gangue. On a developpe un modele de reaction pour une seule BCB dans le haut fourneau et on l'a valide a l'aide des resultats d'essai de reaction isotherme des echantillons de BCB prepares. On a ensuite analyse par modelisation la reaction de la BCB le long du chemin d'ecoulement solide median dans un haut fourneau de 2500 m(3). Les resultats ont montre que le modele developpe etait fiable. Dans le haut fourneau, la BCB a subi une auto-reduction complete et a joue le role d'intensification de la reduction du frittage et de suppression de la gazeification du coke dans la gamme de temperature de 950 K a 1150 K. L'oxyde de fer dans la BCB etait reduit beaucoup plus rapidement pres de la surface que pres du centre dans la gamme de temperature de 950 K a 1150 K. Cependant, le biocharbon dans la BCB a ete gazeifie de maniere approximativement uniforme dans la direction radiale a mesure que la temperature augmentait.
引用
收藏
页码:341 / 350
页数:10
相关论文
共 50 条
  • [41] Softening–melting–dripping characteristics and evolution mechanism of vanadium-bearing titanomagnetite carbon composite briquette used as novel blast furnace burden
    Wei Zhao
    Man-sheng Chu
    Hong-wei Guo
    Zheng-gen Liu
    Bing-ji Yan
    Journal of Iron and Steel Research International, 2021, 28 : 1082 - 1094
  • [42] Enhancement of strength of blast furnace flue dust - iron oxide - fly ash composite briquette using ANOVA-based mathematical model
    Das, Ritwik
    Mondal, Manas Kumar
    Pramanik, Susanta
    IRONMAKING & STEELMAKING, 2023, 50 (08) : 1085 - 1093
  • [43] Effect of Titanomagnetite Ironsand Coal Composite Hot Briquette on Softening-melting Performance of Mixed Burden under Simulated Blast Furnace Conditions
    Tang, Jue
    Zhang, Zedong
    Chu, Mansheng
    Zhao, Wei
    Liu, Zhenggen
    ISIJ INTERNATIONAL, 2020, 60 (11) : 2350 - 2356
  • [44] Novel blast furnace operation process involving charging with low-titanium vanadium-titanium magnetite carbon composite hot briquette
    Zhao, Wei
    Chu, Man-sheng
    Wang, Hong-tao
    Liu, Zheng-gen
    Tang, Ya-ting
    INTERNATIONAL JOURNAL OF MINERALS METALLURGY AND MATERIALS, 2016, 23 (05) : 501 - 510
  • [45] REACTION OF COKE IN THE IRON BLAST-FURNACE
    SZEKELY, J
    ADERIBIGBE, DA
    JOURNAL OF METALS, 1979, 31 (12): : 41 - 41
  • [46] SILICA REDUCTION REACTION IN BLAST-FURNACE
    KAY, DAR
    TAYLOR, J
    JOURNAL OF THE IRON AND STEEL INSTITUTE, 1963, 201 (01): : 67 - &
  • [47] Information modeling system for blast furnace control
    Spirin, N. A.
    Gileva, L. Y.
    Lavrov, V. V.
    XIX INTERNATIONAL SCIENTIFIC CONFERENCE ON METALLURGY: TECHNOLOGIES, INNOVATION, QUALITY (METALLURGY2015), 2016, 150
  • [48] Modeling of iron ore reactions in blast furnace
    Fu, Dong
    Tang, Guangwu
    Zhao, Yongfu
    D'Alessio, John
    Zhou, Chenn Q.
    INTERNATIONAL JOURNAL OF HEAT AND MASS TRANSFER, 2016, 103 : 77 - 86
  • [49] Modeling the discontinuous liquid flow in a blast furnace
    Wang, GX
    Chew, SJ
    Yu, AB
    Zulli, P
    METALLURGICAL AND MATERIALS TRANSACTIONS B-PROCESS METALLURGY AND MATERIALS PROCESSING SCIENCE, 1997, 28 (02): : 333 - 343
  • [50] Intelligent Modeling of Tuyere Raceway of Blast Furnace
    Liu, Bingnan
    Wu, Minghan
    PROCEEDINGS OF THE 33RD CHINESE CONTROL AND DECISION CONFERENCE (CCDC 2021), 2021, : 5466 - 5471
12345