Effect of Calcination Condition on Thermal Activation of Ibere Clay and Dissolution of Alumina

U. Mark, C. N. Anyakwo, O. Onyemaobi, C. S. Nwobodo
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引用次数: 6

Abstract

Bauxite deposits for production of alumina are lacking in Nigeria and there is an aluminium smelter plant in the country which requires alumina for its operation. Development of alternative alumina resource using clays that are abundant in the country is the focus of this paper. The thermal activation of Ibere clay from southeastern Nigeria for optimal leaching of alumina was investigated. The clay assayed 28.52% Al2O3 and 51.6% SiO2, comprising mainly kaolinite mineral and quartz or free silica. The alumina locked up in the clay structure was rendered acid-soluble by thermal activation which transformed the clay from its crystalline nature to an amorphous, anhydrous phase or metakaolinite. The clay samples were heated at calcination temperatures of 500°C, 600°C, 700°C, 800°C, and 900°C at holding times of 30, 60, and 90 minutes. Uncalcined clay samples and samples calcined at 1000°C (holding for 60 minutes) were used in the control experiments. The result of leaching the clay calcines in 1 M hydrochloric acid solution at room temperature, showed that the clay calcines produced at 600°C (holding for 60 minutes) responded most to leaching. Samples calcined for 60 minutes also responded better than those held for 30 or 90 minutes. Based on activation energy studies, it was observed that calcines produced at 600°C (for 60 minutes) had both the highest leaching response (50.27% after 1 hour at leaching temperature of 100°C) and the lowest activation energy of 24.26 kJ/mol. It is concluded therefore that Ibere kaolinite clay should be best calcined for alumina dissolution by heating up to 600°C and holding for 60 minutes at that temperature. The clay deposit has potential for use as alternative resource for alumina production in Nigeria where bauxite is scarce.
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煅烧条件对粘土热活化及氧化铝溶解的影响
尼日利亚缺乏用于生产氧化铝的铝土矿矿床,该国有一家铝冶炼厂,其运营需要氧化铝。利用我国丰富的粘土开发替代氧化铝资源是本文的重点。研究了尼日利亚东南部伊比利亚粘土的热活化对氧化铝的最佳浸出效果。粘土的Al2O3含量为28.52%,SiO2含量为51.6%,主要由高岭石矿物和石英或游离二氧化硅组成。锁定在粘土结构中的氧化铝通过热活化而变得酸溶性,热活化将粘土从其结晶性质转变为无定形无水相或偏高岭土。粘土样品在500°C、600°C、700°C、800°C和900°C的煅烧温度下加热,保温时间分别为30、60和90分钟。在对照实验中使用未煅烧的粘土样品和在1000°C下煅烧(保持60分钟)的样品。在室温下将粘土煅烧物在1M盐酸溶液中浸出的结果表明,在600°C(保持60分钟)下生产的粘土煅烧物对浸出反应最大。煅烧60分钟的样品也比保持30或90分钟的样品反应更好。根据活化能研究,观察到在600°C(60分钟)下生产的煅烧产物具有最高的浸出反应(在100°C的浸出温度下1小时后为50.27%)和24.26kJ/mol的最低活化能。因此,得出的结论是,伊比利亚高岭石粘土最好通过加热至600°C并在该温度下保持60分钟来煅烧以溶解氧化铝。在铝土矿稀缺的尼日利亚,粘土矿床有潜力作为氧化铝生产的替代资源。
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