The carbothermic reduction of zinc sulfide in the presence of calcium oxide has been studied using X-ray diffractometry (XRD), scanning electron microscopy (SEM) and surface area measurements. The results of XRD indicated that zinc sulfide was first transformed from beta type to alpha type, then reacted to give an intermediate product of zinc oxide before being reduced finally to zinc vapor. The sulfur of zinc sulfide was scavenged as calcium sulfide which remained in the solid, and carbon black formed carbon monoxide. SEM showed that the zinc containing particles and carbon grains shrank gradually; the calcium containing grains swelled and sintered during the reaction. The surface area of the solid sample decreased drastically in the initial stage and then increased with reaction time; the pore volume of the solid sample was also reduced much faster initially and then increased slowly. The average pore diameter, however, increased remarkably in the initial stage, decreased and then leveled off. These results were explained by considering the phase transformation of zinc sulfide, escape of zinc vapor, gasification of carbon and expansion and sintering of calcium sulfide. A reaction mechanism and model are proposed to explain the variations in chemical composition and physical properties of the solid sample during the reaction. (c) 2005 Springer Science + Business Media, Inc.
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机译:使用X射线衍射(XRD),扫描电子显微镜(SEM)和表面积测量研究了在氧化钙存在下硫化锌的碳热还原。 XRD的结果表明,硫化锌首先从β型转变为α型,然后反应生成氧化锌的中间产物,最后被还原为锌蒸气。硫化锌的硫被清除为残留在固体中的硫化钙,炭黑形成一氧化碳。扫描电镜显示,含锌颗粒和碳粒逐渐收缩;反应期间含钙的颗粒溶胀并烧结。固体样品的表面积在初始阶段急剧下降,然后随着反应时间的增加而增加。固体样品的孔体积最初也很快减少,然后缓慢增加。然而,平均孔径在初始阶段显着增加,然后降低然后趋于平稳。通过考虑硫化锌的相变,锌蒸气的逸出,碳的气化以及硫化钙的膨胀和烧结来解释这些结果。提出了一种反应机理和模型来解释反应过程中固体样品的化学组成和物理性质的变化。 (c)2005年Springer Science + Business Media,Inc.
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