Abstract:For the recovery of valuable elements(Fe,P,Mn) in phosphorus-containing converter slag and the utilization of disposed slag,the thermodynamic conditions and influence laws of carbothermal reduction and recovery of valuable elements from the phosphorous-containing steel slag after melting and reforming were systematically analyzed through the theoretical calculation,experiments in resistance furnace,induction furnace test and other research methods. The research results showed that,the reduction temperature was 1 723 K,the basicity was 1.0-2.0,and the low basicity was beneficial to the reduction of Fe2O3 and P2O5 and the recovery of Fe and P resources in the slag. When the basicity of slag was 1.0,the reduction rates of Fe2O3,P2O5 and MnO could reach 99.50%,84.47% and 3.26% respectively,and the recovery rates of Fe and P in slag were 99.50% and 68.69% respectively. When the basicity was 1.5,the reduction rates of Fe2O3 and P2O5 were 90.45% and 63.73% respectively,which were lower than that of when the basicity was 1.0. When the basicity was 2.0,the reduction rate of Fe2O3 in slag was 71.43%,slag and iron was not separated completely. At the condition of that basicity was 1.0,the temperature was 1 723 K,the recovery rate of Fe was over 99% and that of P in the slag was 47.18%,in induction furnace experiments on carbonthermal reduction of molten modified industrial slag. Through thermodynamic analysis,it was found that FeO and P2O5 were easier to be reduced by carbon than MnO. At the same time, FeO and P2O5 were reduced firstly,and MnO began to be reduced after 20 min in slag,the MnO content in slag decreased slightly during the whole reduction process. at the end of the reduction process. The content of FeO,P2O5 and MnO after carbonthermal reduction in slag were 0.07%,0.93% and 2.83% respectively. Using FactSage to compare the phase composition of modified slag before and after reduction,it could be seen that the iron-containing phase(Ca3Fe2Si3O12) in steel slag was effectively controlled,calcium phosphate content decreased obviously,and olivine content increased greatly,which improved the application range of steel slag. A reference for recycling and resource utilization of valuable elements in steel slag containing phosphorus is provided.
何赛, 林路, 刘亚琴, 吕岩, 胡砚斌, 梁强. 熔融改质含磷钢渣碳热还原回收有价元素试验[J]. 钢铁, 2022, 57(6): 167-174.
HE Sai, LIN Lu, LIU Ya-qin, LÜ Yan, HU Yan-bin, LIANG Qiang. Recovery of valuable elements from molten modified phosphorous steel slag by carbothermic reduction[J]. Iron and Steel, 2022, 57(6): 167-174.
[1] 张俊,严定鎏,齐渊洪,等. 钢铁冶炼渣的处理利用难点分析[J]. 钢铁,2020,55(1):1.(ZHANG Jun,YAN Ding-liu,QI Yuan-hong,et al. Difficulty analysis on treatment andutilization of iron and steel smelting slag[J]. Iron and Steel,2020,55(1):1.) [2] 杜传明,于耀辉,袁磊,等. 钢渣中磷分离及回收的研究现状和发展趋势[J]. 钢铁,2020,55(12):1.(DU Chuan-ming,YU Yao-hui,YUAN Lei,et al. Research status and development trend of phosphorus separation and recovery from steelmaking slag[J]. Iron and Steel,2020,55(12):1.) [3] 王林,龙红明,张浩. 复合助磨剂对钢渣超微粉助磨效果[J]. 中国冶金,2019,29(12):5.(WANG Lin,LONG Hong-ming,ZHANG Hao. Grinding effect of compound grinding aid on ultrafine steel slag powder[J]. China Metallurgy,2019,29(12):5.) [4] YU Li,DAI Wen-bin. Modifying hot slag and converting it into value-added materials:A review[J]. Journal of Cleaner Production,2018(175):176. [5] 龙红明,郑伟成,裴元东,等. 钢渣改性制备高性能化工填料的研究与应用[J]. 钢铁研究学报,2021,33(10):1076.(LONG Hong-ming,ZHENG Wei-cheng,PEI Yuan-dong,et al. Research and application of modified steel slag to prepare high-performance chemical fillers[J]. Journal of Iron and Steel Research,2021,33(10):1076.) [6] 韩凤光,邱海雨,聂慧远,等. 梅山烧结配加转炉钢渣的试验研究[J]. 烧结球团,2006(5):15.(HAN Feng-guang,QIU Hai-yu,NIE Hui-yuan,et al.Experiment of proportioning BOS in sintering production in Meishan I&S Co.[J]. Sintering and Pelletizing,2006(5):15.) [7] 梁柱,李佳,李鹏,等. 钢渣中钙镁离子的选择性浸出行为[J]. 中国冶金,2020,30(5):51.(LIANG Zhu,LI Jia,LI Peng,et al.Selective leaching behavior of calcium and magnesium from steel slag[J]. China Metallurgy,2020,30(5):51.) [8] 代文彬. 钢渣热态改质的工艺、装备及制备微晶玻璃的研究[D]. 北京:北京科技大学,2016.(DAI Wen-bin. Study on Slag Hot Modification Process,Equipment and Preparation for Glass-Ceramics Manufacturing[D]. Beijing:University of Science and Technology Beijing,2016.) [9] 郝宁,田志红,贾雅楠,等. CaO/SiO2对钢渣平衡物相的组成及含量的影响[J]. 中国冶金,2021,31(4):84.(HAO Ning,TIAN Zhi-hong,JIA Ya-nan,et al. Effect of CaO/SiO2 on phase composition and content of steel slag[J]. China Metallurgy,2021,31(4):84.) [10] 吕岩,张猛,艾立群,等. 微波处理碳热还原转炉钢渣的脱磷试验研究[J]. 炼钢,2010,26(4):70.(LÜ Yan,ZHANG Meng,AI Li-qun,et al. Experimental research on dephosphorization of converter slag by microwave heating and carbon thermal reduction[J]. Steelmaking,2010,26(4):70.) [11] 艾立群,张彦龙,朱祎姮. 微波碳热还原转炉钢渣脱磷研究[J]. 钢铁钒钛,2015,36(6):63.(AI Li-qun,ZHANG Yan-long,ZHU Yi-heng. Research on carbothermic reduction for dephosphorization from converter slag by microwave heating[J]. Iron Steel Vanadium Titanium,2015,36(6):63.) [12] 周朝刚,胡锦榛,陈虎,等. 基于高FeO转炉渣的钢液脱磷行为[J]. 钢铁,2021,56(7):63.(ZHOU Chao-gang,HU Jin-zhen,CHEN Hu,et al. Dephosphorization behavior of molten steel based on high FeO converter slag[J]. Iron and Steel,2021,56(7):63.) [13] 郭瑞华,王书桓,李晨晓,等. 焦炭还原脱磷转炉熔渣的气化脱磷试验[J]. 钢铁,2020,55(9):118.(GUO Rui-hua,WANG Shu-huan,LI Xiao-chen,et al. Experimental on coke reduction dephosphorization converter slag gasification dephosphorization[J]. Iron and Steel,2020,55(9):118.) [14] Kenji Nakase,Akitoshi Matsui,Naoki Kikuchi,et al. Effect of slag composition on phosphorus separation from steelmaking slag by reduction[J]. ISIJ International,2017,57(7):1197. [15] 董文亮,罗磊,田志红,等. “全三脱”工艺流程中脱碳渣返回脱磷转炉利用[J]. 钢铁,2017,52(5):36.(DONG Wen-liang,LUO Lei,TIAN Zhi-hong,et al. Recycle of decarburization-slag in dephosphorization-furnace of duplex process in converter[J]. Iron and Steel,2017,52(5):36.)
2022, Vol. 57 
