References

1. J.J. Wang, X. Yue, P.F. Wang, T. Yu, X. Du, X.G. Hao, A. Abudula, G.Q. Guan, Electrochemical technologies for lithium recovery from liquid resources: a review, Renewable Sustainable Energy Rev., 154 (2022) 111813, doi: 10.1016/j.rser.2021.111813.
2. D.H. Liu, X.Y. Gao, H.Z. An, Y.B. Qi, X.Q. Sun, Z. Wang, Z.H. Chen, F. An, N.F. Jia, Supply and demand response trends of lithium resources driven by the demand of emerging renewable energy technologies in China, Resour. Conserv. Recycl., 145 (2019) 311–321.
3. A. Hormati, B. Rezai, H.H. Shoormasti, G.R. Paydar, Extraction of lithium ions from salt lake brine using magnetic ionic liquid: kinetic and equilibrium studies, Inorg. Chem. Commun., 142 (2022) 109693, doi: 10.1016/j.inoche.2022.109693.
4. Z.G. Wang, Domestic and abroad lithium resources exploitation status quo and industrial development prediction, Coal Geol. China, 33 (2021) 52–55.
5. M.P. Zheng, L.Z. Bu, Rational development and comprehensive utilization of salt lakes resources, Conserv. Util. Miner. Resour., 1 (2009) 17–22.
6. X. Jiang, B.H. Zhou, Z. Nie, Experimental research progress in evaporation of salt lake brine, Inorg. Chem. Ind., 45 (2013) 1–3,32.
7. Z.H. Xiong, S.J. Wang, Status and progress on key technologies for development and utilization of resources in Qarhan Salt Lake, Ind. Miner. Process., 1 (2021) 33–37.
8. Y.Y. Song, X.K. Wang, J.G. Dong, J.J. Yuan, Z.L. Sha, Investigation of the evaporating process and salt forming law of Laguocuo Salt Lake brine at the temperature of 5°C, J. Tianjin Univ. Sci. Technol., 29 (2014) 42–45.
9. H. Dong, Study on lithium metallogenesis mechanism of Laguocuo Salt Lake, Tibet, China University of Geosciences, Beijing, 2019.
10. J.L. Wu, X.K. Wang, J.G. Dong, Z.L. Sha, Salting-out law of the brine from the Laguocuo Salt Lake through isothermal evaporation at 15°C, J. Tianjin Univ. Sci. Technol., 29 (2014) 49–52,57.
11. Z. Nie, L. Bu, M. Zheng, W. Huang, Experimental study of natural brine solar ponds in Tibet, Sol. Energy, 85 (2011) 1537–1542.
12. J.Y. Liu, M.P. Zheng, J. Luo, A study of Artemia in Lagkor Co, Tibet, I: biological feature, J. Lake Sci., 10 (1998) 92–96.
13. S. Wang, Y. Guo, N. Zhang, L. Bu, T. Deng, M. Zheng, Caloric evaporation of the brine in Zangnan Salt Lake, Front. Chem. Sci. Eng., 5 (2011) 343–348.
14. Z. Nie, Q. Wu, L. Bu, Y. Wang, M. Zheng, Experimental study of the Tibetan Dangxiong Co Salt Lake brine during isothermal evaporation at 25°C, Carbonates Evaporites, 35 (2020), doi: 10.1007/s13146-019-00541-z.
15. F. Gao, M. Zheng, P. Song, L. Bu, Y. Wang, The 273.15 K isothermal evaporation experiment of lithium brine from the Zhabei Salt Lake, Tibet, and its geochemical significance, Aquat. Geochem., 18 (2012) 343–356.
16. S.J. Bian, Crystallization Process of Potassium, Boron, and Lithium of DaQaidam Brine, Qinghai Institute of Salt Lakes, Chinese Academy of Sciences, China, 2017.
17. Z.W. Li, Z.H. Fu, C.B. Li, D.M. Zhao, Y.M. Zhang, Y.F. Ma, Z.H. Zhang, Prediction of brine evaporation rate based on response surface methodology and artificial neural network, Desal. Water Treat., 231 (2021) 143–151.
18. Qinghai Institute of Salt Lakes, Chinese Academy of Sciences, Analysis Methods of Brine and Salt, Science Press, Beijing, 1988.
19. P. Debye, E. Hückel, The Theory of electrolytes. I. lowering of freezing point and related phenomena, Physikalische Zeitschrift, 24 (1923) 185–206.
20. C.C. Chen, P.M. Mathias, H. Orbey, Use of hydration and dissociation chemistries with the electrolyte-NRTL model, AlChE J., 5 (1999) 1576–1586.
21. A.R. Felmy, J.H. Weare, The prediction of borate mineral equilibria in natural waters: application to Searles Lake, California, Geochim. Cosmochim. Acta., 50 (1986 )2771–2783.
22. K. Thomsen, Aqueous Electrolytes Model Parameters and Process Simulation, Technical University of Denmark, 1997.
23. R.Z. Cui, G.L. Nie, J. Li, K. Thomsen, W. Li, Prediction of phase equilibria of Li–Na–K–Mg–Cl–SO₄–H₂O system at multiple temperatures, J. Salt Lake Res., 29 (2021) 1–19.
24. K. Thomsen, Aqueous Electrolytes Model Parameters and Process Simulation, Technical University of Denmark, 1997.