Lattice Boltzmann model for simulation on leaching process of weathered elution-deposited rare earth ore 被引量：5

Lattice Boltzmann model for simulation on leaching process of weathered elution-deposited rare earth ore

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摘要 The lattice Boltzmann model with coupled chemical reaction was proposed to simulate the ion exchange process of rare earth leaching and verified by comparison with both empirical correlation of mass transfer coefficient and unreacted-core shrinking model. By simulation, the zonation phenomenon of leaching reagent in the leaching column was presented, and the breakthrough curve of leaching reagent was obtained. When t=50 s, there existed the saturated and exchange zones, and the leaching reagent concentration decreased gradually from 20 to 9.3 g/L. In accordance with the breakthrough curve, the breakthrough capacity of ion-type rare earth ore and the adsorbed ion concentration of leaching reagent were derived, the time of t=25 s was the breakthrough point of ammonium ion in leaching reagent and the breakthrough capacity of the rare earth ore was 125 g/L. Besides, the chemical kinetics parameters used for the solute transfer process of rare earth leaching were obtained by the simulation and then were used to determine the rate-limiting steps of rare earth leaching process. The lattice Boltzmann model with coupled chemical reaction was proposed to simulate the ion exchange process of rare earth leaching and verified by comparison with both empirical correlation of mass transfer coefficient and unreacted-core shrinking model. By simulation, the zonation phenomenon of leaching reagent in the leaching column was presented, and the breakthrough curve of leaching reagent was obtained. When t=50 s, there existed the saturated and exchange zones, and the leaching reagent concentration decreased gradually from 20 to 9.3 g/L. In accordance with the breakthrough curve, the breakthrough capacity of ion-type rare earth ore and the adsorbed ion concentration of leaching reagent were derived, the time of t=25 s was the breakthrough point of ammonium ion in leaching reagent and the breakthrough capacity of the rare earth ore was 125 g/L. Besides, the chemical kinetics parameters used for the solute transfer process of rare earth leaching were obtained by the simulation and then were used to determine the rate-limiting steps of rare earth leaching process.

作者邱廷省朱冬梅吴承优王利民

机构地区 School of Resource and Environmental Engineering State Key Laboratory of Multiphase Complex Systems Changsha Research Institute of Mining and Metallurgy Co.

出处《Journal of Rare Earths》 SCIE EI CAS CSCD 2017年第10期1014-1021,共8页 稀土学报（英文版）

基金 supported by the National Natural Science Foundation of China(51674125,51776212,91434113) National Key Basic Research Program of China(2015CB251402) Chinese Academy of Sciences(QYZDB-SSW-SYS029)and Outstanding Doctoral Dissertation Project Fund of JXUST(YB2016001)

关键词 lattice Boltzmann model rare earth leaching ion exchange simulation solute transfer lattice Boltzmann model rare earth leaching ion exchange simulation solute transfer

分类号 TD955 [矿业工程—选矿]

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