Paper Titles

Study of Porous Plate Hydrodynamic Cavitation Device for P-Nitrophenol
p.385

Study on Spin Transport Properties in Transition Metal Atoms Interfered Alpha-Graphyene Nanoribbon Systems
p.389

Preparation of Chitosan-Diatomite Adsorbent and Adsorption to Cu(II) in Waste Water
p.393

Effect of Gamma Irradiation on the Migration of Di(2-Ethylhexyl) Phthalate from Plasticized Poly(Vinyl Chloride) into Air and PVC Resin
p.397

Stable and Metastable Phase Equilibria of the Lithium-Containing Salt-Water Systems
p.401

Phase Chemistry and Thermal Chemistry on the Calcium-Containing Brine Systems
p.405

Phase Equilibria of the Aqueous Systems Containing Magnesium and Borate Ions
p.409

Processes on the Thermodynamic Properties of Lithium Borates
p.413

Rubidium and Cesium Recovery from Brine Resources
p.417

HomeAdvanced Materials ResearchAdvanced Materials Research Vol. 1015Stable and Metastable Phase Equilibria of the...

Stable and Metastable Phase Equilibria of the Lithium-Containing Salt-Water Systems

Article Preview

Abstract:

Salt lake brine resource is one of the strategic resources in the western of China. Phase equilibria and phase diagrams are the theoretic foundation for the exploitation of salt lake brine resources. Hence, studies for the stable and metastable phase equilibria of lithium-containing salt-water systems are of the great importance for the development of salt lake brine resources. In this paper, the stable and metastable phase equilibria of lithium-containing salt-water systems were summarized, and the problems existed at present and the new trends in the future are also discussed.

You might also be interested in these eBooks

Chemical Engineering and Material Properties III

Info:

Periodical:

Advanced Materials Research (Volume 1015)

Pages:

401-404

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.1015.401

Citation:

Cite this paper

Online since:

August 2014

Authors:

Long Li, Dao Lin Gao, Jiang Ping Zeng, Ya Fei Guo, Tian Long Deng*

Keywords:

Lithium, Metastable Phase Equilibria, Salt-Water Systems, Stable Phase Equilibria

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

© 2014 Trans Tech Publications Ltd. All Rights Reserved

Share:

Citation:

* - Corresponding Author

[1] Feng Gao, Mianping Zheng, Zhen Nie et al. Brine Lithium Resource in the Salt Lake and Advances in Its Exploitation [J]. Acta Geoscientica Sinica, 2011 (32) 483-492.

[2] Keyuan Hu, Wenqi Chai. A Study of Phase Equilibria in the Quaternary Aqueous Salt System H+, Li+, Mg2+/ Cl- – H2O at 0℃ [J]. Acta Chimica Sinica, 1965 (31) 189-197.

[3] Fengxing Zhang, Zhijie Guo, Peiheng Chen et al. A Study on the Ternary Syatem LiCl–MgCl2–H2O at 25℃ [J]. Journal of Northwest University, 1988 (18) 75-78.

[4] Fengxing Zhang, Zhijie Guo, Peiheng Chen et al. Studies on the Solubility and the Isothermal Evaporation Process in the Quinary System Li, Na, K, Mg/Cl–H2O at 25℃ [J]. Chemical Journal of Chinese Universities, 1987 (8) 301-305.

[5] Bing Li, Qingzhong Wang, Jun Li et al. A Study on the Ternary Systems Li+, K+/SO42-–H2O and Li+, Mg2+/SO42-–H2O at 25℃ [J]. Acta Physico-chimica Sinica, 1994 (10) 536-542.

DOI: 10.1002/cjoc.19950130204

[6] Bai Sun, Bing Li, Chunhui Fang et al. Studies on the Phase Diagram and Solution Properties for the Quinary System, Li+, K+, Mg2+/Cl-, SO42-–H2O at 25℃ [J]. Journal of Salt Lake Research, 1995 (3) 50-56.

[7] Shihua Sang, Minglin Tang, Hui'an Yin et al. A Study on the phase equilibrium of the Quaternary System K2CO3–Na2CO3–Li2CO3–H2O at 288 K [J]. Chinese Journal of Applied Chemistry, 2004 (21) 509-511.

[8] Ying Zeng, Hui'an Yin, Minglin Tang et al. Studies on the Phase Diagram and Liquid Physicochemical Properties for the Quinary System, Li+, Na+, K+/CO32-–H2O at 298 K [J]. Chemical Engineering (China), 1999 (27) 45-47, 57.

[9] Tianlong Deng, Hui'an Yin, Minglin Tang. A Study of Solubilities and Physico-chemistry Properties of Equilibrium Solutions in the Reciprocal Quaternary System Li+, K+/Cl-, CO32-–H2O at 298 K [J]. Chemical Journal of Chinese Universities, 2000 (21) 1572-1574.

[10] Ying Zeng, Hui'an Yin, Minglin Tang et al. A Study of the Phase Equilibrium For Quinary System Li+, Na+, K+/ CO32-, Cl-–H2O at 298. 15 K [J]. Chemical Journal of Chinese Universities, 2003 (24) 968-972.

[11] Rong Wang, Minglin Tang, Hui'an Yin. A Study of Solubilities and Physico-chemistry Properties of Equilibrium Solutions in the Reciprocal Quaternary System Li+, K+/Cl-, B4O72-–H2O at 298 K [J]. Sea-Lake Salt and Chemical Industry, 1999 (28) 22-27.

[12] Ying Zeng, Yun Peng, Lin Zhou et al. Study on the Phase Equilibrium of Reciprocal Quaternary System Li+, K+/Cl-, B4O72-–H2O at 323 K [J]. Chemical Engineering (China), 2006 (34) 43-45, 59.

[13] Hui'an Yin, Shihua Sang, Minglin Tang et al. Equilibrium of Quaternary System Li+, K+/CO32-, B4O72-–H2O at 288 K [J]. Journal of Chemical Industry and Engineering (China), 2004 (55) 464-467.

[14] Ying Zeng, Xia Xiao, Hui'an Yin et al. A Study on the Phase Equilibrium and Solution Properties of the Quaternary System Li+, K+/CO32-, B4O72-–H2O at 298 K [J]. Journal of Chemical Engineering of Chinese University, 2002 (16) 591-596.

[15] Baojun Zhang. Metastable Phase Equilibrium of Quaternary System Li+, Na+, Mg2+/ Cl-–H2O at 35℃ [D]. Chengdu University of Technology, Sichuan, China, (2007).

[16] Ying Zeng, Xudong Yu, Jingqiang Zhang et al. Metastable Phase Equilibria in the Aqueous Ternary System Containing Potassium, Lithium and Chloride Ions at 298. 15 K [J]. Advanced Materials Research, 2011 (233-235) 1619-1622.

DOI: 10.4028/www.scientific.net/amr.233-235.1619

[17] Wenhua Chang, Ying Zeng, Shuyi Yan et al. Metastable Phase Equilibrium in the Ternary System LiCl+KCl+H2O at 323 K [J]. Journal of Salt and Chemical Industry, 2012 (41) 26-28.

[18] Yafei Guo, Daolin Gao, Haijun Han et al. Metastable phase equilibria in the aqueous ternary system (Na2SO4 + Li2SO4 + H2O) at 308. 15 and 348. 15 K [J]. Fluid Phase Equilibria, 2013 (358) 56-59.

DOI: 10.1016/j.fluid.2013.07.048

[19] Shuyi Yan, Hui'an Yin, Qu Liang et al. An Experimental study on metastable Phase Equilibria in the Quaternary System Li+, K+/Cl-, CO32-–H2O at 298 K [J]. Chemical Research and Application, 2008 (20) 166-168.

[20] Shihua Sang, Hui'an Yin, Ying Zeng et al. Study on Metastable Equilibria in Quaternary System Li＋, Na＋/ SO42-, CO32-–H2O at 288 K [J]. Acta Chimica Sinica, 2006 (64) 2247-2253.

[21] Ying Zeng, Xiaofeng Lin, Shijun Meng. Study on Metastable Phase Equilibrium of Quaternary System Li+, K+/CO32-, B4O72-–H2O at 273 K [J]. Chemical Engineering (China), 2008 (36) 47-50.

[22] Hui'an Yin, Shihua Sang, Minglin Tang et al. Equilibrium of Quaternary System Li+, K+/CO32-, B4O72-–H2O at 288 K [J]. Journal of Chemical Industry and Engineering (China), 2004 (55) 464-467.

[23] Shudong Qu. Study on the Metastable Equilibrium of the Quinary System Li+, K+/CO32-, SO42-, B4O72-–H2O at 273 K [D]. Chengdu University of Technology, Sichuan, China, (2008).

[24] Shihua Sang, Xiao Zhang, Xiangpo Zhao et al. Metastable Equilibria in the Quinary System of Li+, K+/CO32-, SO42-, B4O72-–H2O at 288 K [J]. Acta Chimica Sinica, 2010 (68) 476-480.