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Synchronous recovery of lithium and boron from the carbonate-type brine by two tandem fixed-bed adsorbers
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  • Mengxiang Lu,
  • Yao Miao,
  • Ying Yang,
  • Ping Li
Mengxiang Lu
East China University of Science and Technology School of Chemical Engineering
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Yao Miao
East China University of Science and Technology School of Chemical Engineering
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Ying Yang
East China University of Science and Technology
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Ping Li
East China University of Science and Technology School of Chemical Engineering

Corresponding Author:liping_2007@ecust.edu.cn

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Abstract

In view of the coexistence of lithium and boron in the carbonate-type brine, a novel process for the synchronous recovery of lithium and boron from brine using two tandem fixed-bed adsorbers, is developed, where the first column is packed with PVB-HTO ion-sieves for lithium recovery, and the second column is packed with N-methylglucamine resins for boron recovery. After the recovery of lithium and boron from brine, two packed columns are desorbed independently through acidic solution washing to obtain Li-rich solution and B-rich solution, respectively. The carbonate-type brine mainly contains cations of Na+, K+, Li+ and anions of Cl-, 〖“SO” 〗_4^(2-) , 〖“CO” 〗_3^(2-) and 〖“B(OH)” 〗_4^- , where carbonate and borate in brine have the pH-buffering action to accept or neutralize the released H+ ions enhancing the Li+/H+ ion-exchange. The feasibility and effectiveness of the proposed process is validated experimentally for the synchronous recovery of lithium and boron from brine.