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作 者:李建立[1] 贺东风[1] 徐安军[1] Yang Qi-xing 田乃媛[1]
机构地区:[1]北京科技大学冶金与生态工程学院 [2]Division of ProcessMetallurgy,Lulea University of Technology,Sweden Lulea 97187
出 处:《炼钢》2013年第3期73-77,共5页Steelmaking
基 金:中国留学基金委对本研究的赞助
摘 要:研究了硅铁还原电炉粉尘过程中温度对锌还原挥发的影响,以中频电磁感应炉为加热设备,实验样品采用XRF、XRD、SEM-eds及化学分析等方法分析。试验结果表明,样品在不同温度下加热时,铁和锌的氧化物同时被还原;随着温度的升高锌的还原挥发率逐渐增加,1 300℃时锌的挥发率为95.90%。硅还原电炉粉尘的反应为固-固反应,金属铁的生成有利于ZnO的还原。粉尘中残留的锌主要以尖晶石固溶体(Mg,Fe,Zn)(Cr,Fe)2O4的形式弥散在金属铁相附近,此外有少量的锌固溶在硅灰石相(CaSiO3)内。The effect of temperature on the evaporation of zinc from electric arc furnace dust (EAFD) by silicon was investigated. The experiments were carried out in a con- ductive furnace and the samples collected were analyzed with X-ray Fluorescence (XRF), X-ray Diffraction (XRD) and Scanning Electron Microscope (SEM) equipped Energy Dispersive Spectroscopy (EDS). The reSults show that when the mixture of sili- con and EAFD was heated, the oxides of ferrum and zinc are reduced simultaneously. The evaporation amount of zinc increases with the temperature rising, and 95.90 % of zinc volatilizes from the furnace in the form of zinc fume at 1 300℃. The reduction of EAFD belongs to solid-solid reaction, and the formation of iron is conducive to the evap- oration of zinc. The part of zinc remaining in the mixtures mainly forms the spinel solid solution (Mg, Fe, Zn) (Cr, Fe)2O4.
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