The effects of the nitric acid concentration, leaching time, leaching temperature, and solid-to-liquid ratio on leaching efficiency were examined. '/> Leaching of Light Rare Earth Elements from Sichuan Bastnaesite: A Facile Process to Leach Trivalent Rare Earth Elements Selectively from Tetravalent Cerium
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Leaching of Light Rare Earth Elements from Sichuan Bastnaesite: A Facile Process to Leach Trivalent Rare Earth Elements Selectively from Tetravalent Cerium

机译:来自四川巴斯氏菌矿的轻稀土元素浸出:从四价铈选择性地浸出三价稀土元素的容易过程

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摘要

AbstractThe effects of the nitric acid concentration, leaching time, leaching temperature, and solid-to-liquid ratio on leaching efficiency were examined. From those results, a facile process for the selective leaching of trivalent rare earth elements (RE(III)) from tetravalent cerium (Ce(IV)) was proposed. The roasted bastnaesite was used to leach 34.87% of RE(III) and 2.15% of Ce(IV) at 60°C for 0.5?h with an acid concentration of 0.5?mol/L. This selective leaching process can be described by the shrinking-core model that follows the kinetic model 1???2/3α???(1???α)2/3. Subsequently, the leached slag was hydrothermally treated and followed by thorough leaching with 4.0-mol/L nitric acid. Furthermore, the specific surface area of the final leached slag is 57.7?m2/g, which is approximately 650 times higher than that of raw ore. Finally, selective leaching of RE(III) (>90%) was achieved without using an organic solvent for extraction, whereas lower value Ce(IV)was presented in the leached slag (>92%).]]>
机译:<![CDATA [<标题>抽象 <帕拉ID =“pAR1”>硝酸浓度,浸出时间,浸出温度和固体与浸出效率的效果。从那些结果中,提出了一种用于从四价稀土元素(CE(IV))的三价稀土元素(Re(III))的选择性浸出的容易过程。烘焙的Bastnaesite用于在60℃下将34.87%的RE(III)和2.15%的CE(IV)浸入0.5ΩH的酸浓度为0.5Ω·摩尔/升。这种选择性浸出过程可以通过遵循动力学模型1的收缩核心模型来描述1 ??? 2/3 <重点类型=“斜体”>α ???(1 ??? <重点类型= “斜体”>α)<上标> 2/3 。随后,将浸出的炉渣水热处理,然后用4.0mol / L硝酸彻底浸出。此外,最终浸出渣的比表面积为57.7Ω·m <上标> 2 / g,其比原始矿石高约650倍。最后,在不使用有机溶剂的情况下达到Re(III)(> 90%)的选择性浸出,而较低的值Ce(IV)在浸出的炉渣(> 92%)中。]>

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  • 来源
    《JOM》 |2017年第10期|共6页
  • 作者

    Yueyue Shen; Ying Jiang; Xianying Qiu; Shilin Zhao;

  • 作者单位

    Key Laboratory of Land Resources Evaluation and Monitoring in Southwest Ministry of Education Sichuan Normal University;

    School of Resources and Environment Xichang College;

    Chemistry and Materials Science College Sichuan Normal University;

    Key Laboratory of Land Resources Evaluation and Monitoring in Southwest Ministry of Education Sichuan Normal University;

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  • 原文格式 PDF
  • 正文语种 eng
  • 中图分类 有色金属冶炼;金属学与金属工艺;
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