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Treatment of monazite processed effluent to recover rare earth metals (REMs)
Archana Kumari,Sunidhi Singh,Kavita Parmar,Devendra Deo Pathak,Manis Kumar Jha 한국공업화학회 2020 Journal of Industrial and Engineering Chemistry Vol.83 No.-
Improper disposal of effluent generated in rare earth mining areas and ore processing industries resultsin loss of REMs and miserably affects the ecosystem. Thus, their appropriate treatment is required, whichcan be achieved via environmentally feasible processes. In this connection, systematic scientificadsorption studies were carried out to separate REMs using cationic resin, Amberlite IR120 Na from theeffluent generated during monazite processing for REMs recovery. To optimize feasible conditions forREMs recovery, bench scale studies were carried out varying different process parameters viz. pH, contacttime, resin dose, etc. It was observed that adsorption of 92.63% La, 92.79% Ce, 91.45% Nd, 90.95% Pr and95.09% Sm was achieved at aqueous/ resin (A/R) ratio 25 mL/g, pH 1.3 and contact time 10 min. Loadingcapacity of resin was found to hold 48.57 mg REMs/g resin. The adsorption data followed the second orderreaction ((t/q) = (1/h) + (1/qe)(t)) and Langmuir adsorption isotherm (1/q = [(1/k1 qm)(1/Ce)] + (1/qm)). The loaded REMs was effectively eluted using 15% H2SO4 in 10 min. The REMs enriched solution wastreated to get pure REM oxides as precipitate. This technical application will be useful for REMs recoveryas well as to mitigate environmental pollution.