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Particle agglomeration behavior in fluidized bed during direct reduction of iron oxide by CO/H_(2)mixtures
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作者 Feng Lu Hong Zhong +3 位作者 Bo Liu Jian Xu sheng-fu zhang Liang-ying Wen 《Journal of Iron and Steel Research International》 SCIE EI CAS CSCD 2023年第4期626-634,共9页
The agglomeration behavior of particles significantly impacts on the defluidization occurring in a fluidized bed during the direct reduction process.The influence of CO/H_(2)ratio on surface diffusion of iron atoms wa... The agglomeration behavior of particles significantly impacts on the defluidization occurring in a fluidized bed during the direct reduction process.The influence of CO/H_(2)ratio on surface diffusion of iron atoms was proposed,and the solid bridge force between iron oxide particles was quantificationally analyzed.Moreover,the solid bridge force was successfully added into a CFD–DEM(computational fluid dynamics–discrete element method)model combined with heat transfer and mass transport to investigate the detailed information of agglomeration in a fluidized bed,including the spatial distribution of temperature,velocity and metallization of iron oxide particles.The region of defluidization is sensitive to the reduction temperature.At the same reduction temperature,the iron oxide powder will perform higher metallization and stable fluidization properties with molar fraction of H_(2)in the range of 0.6–0.8,when iron oxide is reduced by CO/H_(2)mixture. 展开更多
关键词 Direct reduction Computational fluid dynamics Discrete element method Particle agglomeration CO/H_(2)mixture Micro morphology
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Effects of Additives on Sulfur Transformation,Crystallite Structure and Properties of Coke during Coking of High-sulfur Coal 被引量:2
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作者 sheng-fu zhang Liang-ying WEN +2 位作者 Kun WANG Chong ZOU Jian XU 《Journal of Iron and Steel Research International》 SCIE EI CAS CSCD 2015年第10期897-904,共8页
High-sulfur coal, as an alternative coal source, has a relatively high proportion in coal reserves. However, the feature of high sulfur content, which can cause environmental pollution and poor quality of molten iron,... High-sulfur coal, as an alternative coal source, has a relatively high proportion in coal reserves. However, the feature of high sulfur content, which can cause environmental pollution and poor quality of molten iron, restrains its utilization in coking industry. Coking experiments of high-sulfur coal with Fe2O3, La2O3 and CaO as additives were carried out in order to fix the sulfur in coke. The effects of additives on sulfur distribution, crystallite structure, surface morphology and properties of coke were investigated. The results indicate that CaO can be used as sulfur-fixing agent in coking process, and CaS is the main mineralogical phase of the sulfur-contained mineral constituents in coke. Fe2O3 and La2O3 facilitate the conversion of CaO to CaS. The additives mainly influence the crystallite height and the average interlayer spacing doo2 of coke. The addition of La2O3 increases the value of the crystallite height while the addition of CaO and Fe2O3 decreases it. CaO leads the pores of coke to increase with its physical action and agglomerating characteristic. Fe2O3 and C can form (Fe,C), resulting in the pulverization and erosion of the pore wall. La2O3 makes the coke surface become more compact and thinner. The reactivity of coke increases with the decrease of crystallite height and crystallite layer number. 展开更多
关键词 COKE additive sulfur transformation crystallite structure coke reactivity coke strength after reaction
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Phase-field method for growth of iron whiskers in the presence of CO gas convection 被引量:1
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作者 Feng Lu Liang-ying Wen +4 位作者 Xu Han Wen-huan Jiang Hua-mei Duan Jian Xu sheng-fu zhang 《Journal of Iron and Steel Research International》 SCIE EI CAS CSCD 2019年第8期829-837,共9页
A phase-field model for growth of iron whiskers that includes convection around a particle was investigated during the process of fluidized pre-reduction. In the simulations, the phase-field method was coupled with fl... A phase-field model for growth of iron whiskers that includes convection around a particle was investigated during the process of fluidized pre-reduction. In the simulations, the phase-field method was coupled with flow field and reduction of iron oxide particles. The results showed that the reduction rate at local place had significant effects on the iron ions diffusion and the iron whiskers were more easily grown on the area containing low mole fraction of oxygen. The growth of iron whiskers in the model was investigated in two important simple situations: a velocity change flow and a CO concentration change flow. Because of high reduction rate and low surface energy, iron whiskers were more easily grown on the windward surface and the length of iron whiskers increased with gas velocity increasing. However, both the length and numbers of iron whiskers increased with CO concentration increasing due to the more nucleation site of iron whiskers created by CO adsorbed. When the gas velocity is higher than 0.3 m/s or CO mole fraction is high than 0.6, the nucleation incubation time would be rapidly decreased, which could give suggestions to control the operational parameters in the fluidized pre-reduction process. 展开更多
关键词 IRON WHISKER REDUCTION CONVECTION PHASE-FIELD method
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Effects of iron compounds on pyrolysis behavior of coals and metallurgical properties of resultant cokes 被引量:3
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作者 Shu-xing Qiu sheng-fu zhang +2 位作者 Qing-yun zhang Gui-bao Qiu Liang-ying Wen 《Journal of Iron and Steel Research International》 SCIE EI CAS CSCD 2017年第12期1169-1176,共8页
The utilization of highly reactive and high-strength coke can enhance the efficiency of blast furnace by promoting indirect reduction of iron oxides.Iron compounds,as the main constituent in iron-bearing minerals,have... The utilization of highly reactive and high-strength coke can enhance the efficiency of blast furnace by promoting indirect reduction of iron oxides.Iron compounds,as the main constituent in iron-bearing minerals,have aroused wide interest in preparation of highly reactive iron coke.However,the effects of iron compounds on pyrolysis behavior of coal and metallurgical properties of resultant cokes are still unclear.Thus,three iron compounds,i.e.,Fe;O;,Fe;O;and FeC;O;·2H;O,were adopted to investigate their effects on coal pyrolysis behavior and metallurgical properties of the resultant cokes.The results show that iron compounds have slight effects on the thermal behavior of coal blend originated from thermogravimetric and differential thermogravimetric curves.The apparent activation energy varies with different iron compounds ranging from 94.85 to 110.11 kJ/mol in the primary pyrolysis process,while lower apparent activation energy is required for the secondary pyrolysis process.Iron compounds have an adverse influence on the mechanical properties and carbon structure of cokes.Strong correlations exist among coke reactivity,coke strength after reaction,and the content of metallic iron in cokes or the values of crystallite stacking height,which reflect the dependency of thermal property on metallic iron content and carbon structure of cokes. 展开更多
关键词 Coal Iron compound Pyrolysis Kinetics Metallurgical property
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Preparation of active coke combining coal with biomass and its denitrification performance
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作者 Xiao-hu Zhou sheng-fu zhang +4 位作者 Yu-yang Wei Farooq Sher Yang Li Wen-zhou Yu Liang-ying Wen 《Journal of Iron and Steel Research International》 SCIE EI CSCD 2021年第10期1203-1211,共9页
To improve the selective catalytic reduction of NO with NH3 over active coke(AC),coal–biomass ACs were prepared from the mixture of poplar and 1/3 coking coal for increasing the active sites.The resultant ACs were ch... To improve the selective catalytic reduction of NO with NH3 over active coke(AC),coal–biomass ACs were prepared from the mixture of poplar and 1/3 coking coal for increasing the active sites.The resultant ACs were characterized by N2 adsorption and X-ray photoelectron spectroscopy.Furthermore,the denitrification performance was tested at laboratory scale.In addition,density functional theory was used to analyze active sites on the surface of AC.The result revealed that,with an increase in poplar content,the decrease in micropores volume appeared in the reduction of denitrification space.However,C−O group including hydroxyl and ether increased with the increase in poplar content,which was found to be most likely responsible for the promoted catalytic activity of AC toward NO reduction mainly because of enhancing NH3 adsorption.The comprehensive effect of two factors made the denitrification ability of AC increased first and then decreased. 展开更多
关键词 Active coke DENITRIFICATION Pore structure Functional group Density functional theory
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