电解含有铁氧化物的熔融电解质提铁是一种钢铁冶炼短流程新工艺,该工艺可以减少甚至消除CO2排放.为测定熔渣中铁氧化物的分解电压,采用一端封闭的氧离子传导的氧化锆基固体电解质管内装熔渣,并以烧结在固体电解质管封闭端外侧表面的多孔铂金作为阳极,构建一种阴、阳极相互隔离的新型管状电解池.将该电解池的多孔铂金阳极置于恒定氧分压的气氛下,在熔渣中分别插入铱丝、铁棒作为阴极,利用线性扫描伏安法测定了1 723 K下SiO2CaO-MgO Al2O3熔渣中FeO的分解电压,研究了熔渣碱度、阴极材料以及阳极气氛氧分压等因素对FeO分解电压的影响.结果表明,增大熔渣碱度、阴极还原合金化以及降低电解产物气体O2的分压,均可降低FeO的分解电压,有利于FeO的电解.测定结果与采用FactSage 6.1热力学软件理论计算的结果一致.证实采用氧离子传导的固体电解质管构建新型管状电解池,测定固体电解质管内熔渣中氧化物的分解电压是可行的.
参考文献
| [1] | Pardo N;Moya J A .Prospective scenarios on energy efficiency and CO2 emissions in the European iron & steel industry[J].ENERGY,2013,54:113. |
| [2] | SUN Wen-qiang,CAI Jiu-ju,MAO Hu-jun,GUAN Duo-jiao.Change in Carbon Dioxide (CO2) Emissions From Energy Use in China's Iron and Steel Industry[J].钢铁研究学报(英文版),2011(06):31-36. |
| [3] | Tian Y H;Zhu Q H;Geng Y .An analysis of energy-related greenhouse gas emissions in the Chinese iron and steel industry[J].ENERGY POLICY,2013,56:352. |
| [4] | Cox A;Fray D J .Electrolytic formation of iron from haematite in molten sodium hydroxide[J].Ironmaking and Steelmaking,2008,35(8):561. |
| [5] | Guoming Li,Dihua Wang,Zhen Chen.Direct Reduction of Solid Fe_2O_3 in Molten CaCl_2 by Potentially Green Process[J].材料科学技术学报(英文版),2009(06):767-771. |
| [6] | Wang D;Gmitter A J;Sadoway D R .Production of oxygen gas and liquid metal by electrochemical decomposition of molten iron oxide[J].Journal of the Electrochemical Society,2011,158(6):E51. |
| [7] | 马光强,邹敏,刘国钦,王琪琳.真空条件下电解TiO2制备海绵钛电解电压的研究[J].中国有色冶金,2010(03):56-58,74. |
| [8] | 陈启元,刘常青,尹周澜,张平民.固体电解质用于熔盐电解析氧过程的研究[J].轻金属,2007(07):30-33. |
| [9] | Uday B. Pal .A Lower Carbon Footprint Process for Production of Metals from Their Oxide Sources[J].JOM,2008(2):43-47. |
| [10] | Krishnan A;Pal U B;Lu X G .Solid oxide membrane process for magnesium production directly from magnesium oxide[J].Metallurgical and Materials Transactions,2005,36B(4):463. |
| [11] | 周宇,高运明,马秀娟,郑鑫,汪猛,王兵.FeO的制备及其室温下稳定性研究[J].武汉科技大学学报(自然科学版),2013(05):383-386. |
| [12] | Caries V;Alphonse P;Tailhades P et al.Study of thermal decomposition of FeC2O4 @ 2H2O under hydrogen[J].Thermochimica Acta,1999,334(1):107. |
| [13] | 张圣弼.冶金物理化学实验[M].北京:冶金工业出版社,1994 |
| [14] | Dolan M D;Johnston R F .Multicomponent diffusion in molten slags[J].Metallurgical and Materials Transactions,2004,35B(4):677. |
| [15] | 于继鹏,王丽君,王亚娴,刘延强,周国治.Fe2+和Fe3+对含铁氧化物熔体性质的影响[J].钢铁研究学报,2014(10):1-8. |
| [16] | Bale C W;Bélisle E;Chartrand P et al.FactSage thermochemical software and databases:recent developments[J].Calphad-computer coupling of phase diagrams and thermochemistry,2009,33(2):295. |
| [17] | Okamoto H .Ir-Si (iridium-silicon)[J].Journal of Phase Equilibria and Diffusion,2007,28(5):495. |
| [18] | 王常珍.冶金物理化学研究方法[M].北京;冶金工业出版社,2000 |
| [19] | 杨映斌 .熔渣可控氧流电化学还原提铁研究[D].武汉:武汉科技大学,2014. |
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