posted on 2023-06-13, 14:36authored byTingting Zhou, Xueli Huang, Baharguli Hadeerbieke, Fangning Yan, Xueying Wang, Qinglong Luo
The phase diagram can guide the comprehensive utilization
of salt
lake brine, particularly lithium extraction. In this paper, the study
on phase equilibria of the quinary system Li+, Na+, K+, Mg2+//Cl––H2O saturated with NaCl·2H2O and its subsystem
Li+, Na+, Mg2+//Cl––H2O at 258.15 K were carried out using the isothermal
dissolution equilibrium method. Based on the experimental data, equilibrium
diagrams for stable phases were plotted. For the equilibrium diagram
of the quaternary system Li+, Na+, Mg2+//Cl––H2O at 258.15 K, there
are two invariant points, five univariant curves, and four crystallization
fields. The quinary system Li+, Na+, K+, Mg2+//Cl––H2O saturated
with NaCl·2H2O at 258.15 K contains three invariant
points, seven univariant curves, and five crystallization fields.
Comparing the phase diagram of the system at 258.15 K to that at 298.15
K reveals that, except KCl, all crystallization zones have decreased,
and LiCl·MgCl2·7H2O has the smallest
crystallization zone compared to the other salts in the systems. This
fundamental research could be valuable for promoting comprehensive
utilization of the lithium-containing salt lake brine.