Paper Titles

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

Phase Equilibria of the Aqueous Lithium-Containing Carbonate Systems
p.421

The Influence of Donor-Doped Content on PTC Effect of Ba-Excess BaTiO₃ Based Ceramics Fired in Reducing Atmosphere
p.425

HomeAdvanced Materials ResearchAdvanced Materials Research Vol. 1015Phase Equilibria of the Aqueous Systems Containing...

Phase Equilibria of the Aqueous Systems Containing Magnesium and Borate Ions

Article Preview

Abstract:

It is well known that the comprehensive utilization of salt lake resources can not only create a good economic benefit, but also effectively protect ecological environment of salt lake and achieve sustainable development. After potassium separating for potassium fertilizer from salt lakes, the rest of mother liquor brines are rich resources of magnesium and boron. Research on phase equilibria of salt-water systems containing magnesium and borate can provide reference data for comprehensive development and utilization of salt lake resources.

You might also be interested in these eBooks

Chemical Engineering and Material Properties III

Info:

Periodical:

Advanced Materials Research (Volume 1015)

Pages:

409-412

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.1015.409

Citation:

Cite this paper

Online since:

August 2014

Authors:

Xu Nian Han, Mei Ling Zhao, Shi Qiang Wang*, Ya Fei Guo, Tian Long Deng

Keywords:

Aqueous Systems, Borate, Magnesium, Phase Equilibrium

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] Jin Zhiliang, Sun Bai, Li Gang. Li Wu. Study on the Ternary System K+, Mg2+/B4O72-–H2O at 25℃ [J]. Journal of Salt Lake Research, 2004 (2): 19–22.

[2] Jing Jing, Zeng Ying, Yu Xudong, Zhang Yujuan, Tan Qi. Stable phase equilibrium of the ternary system K+, Mg2+/B4O72-–H2O at 348 K [J]. Journal of Mineralogy and Petrology, 2013 (1): 116–120.

[3] Du Xianhu, Song Pengsheng, Zhang Jintang. Phase equilibrium in the quaternary system MgB4O7–MgSO4–MgCl2–H2O at 25℃ [J]. Journal of Wuhan Institute of Chemical Technology, 2004 (2): 19–22.

[4] Song Pengsheng, Du Xianhui, Sun Bai. Study on the Ternary System MgB4O7–MgSO4–H2O at 25℃ [J]. Chinese Science Bulletin, 1987 19 : 492–1495.

[5] Bei Weibin, Sun Bai, Song Pengsheng, Zhu Geqin. Study on phase diagram of Mg2+/Cl-, Borate–H2O ternary system at 25℃ [J]. Journal of Salt Lake Research, 1997 (3–4): 42–46.

[6] Luo Bingwei, Deng TianLong, Li Dan. Phase equilibrium in ternary system (Mg2+/Cl-, Borate–H2O) at 323. 15 K [J]. Inorganic Chemicals Industry, 2011 (1): 15–18.

[7] Peng jiang. Study on equilibria in quinary system Na+, Mg2+, K+/SO42-, B4O72-–H2O at 288 K [D]. Chengdu: Chengdu University of Technology, (2008).

[8] Li Ming. Study on equilibria in quinary system Li+, Mg2+/Cl-, SO42-, B4O72-–H2O at 288 K [D]. Chengdu: Chengdu University of Technology, (2009).

[9] Du Xianhu, Song Pengsheng, Zhang Jintang. Phase equilibrium in the quaternary system MgB4O7–MgSO4–MgCl–H2O at 25℃ [J]. Journal of Wuhan Institute of Chemical Technology, 2000 (4): 13–16.

[10] Xiao Longjun, Sang Shihua, Zhao Xiangpo. Study on phase equilibrium of the quaternary system K2B4O7–Li2B4O7–MgB4O7–H2O at 288 K [J]. Journal of Salt and Chemical Industry, 2010 (1): 18–20.

[11] Sang Shihua, Li Ming, Li Heng, Sun Minglang. A study on phase equilibria of quaternary system Li+, Mg2+/SO42-, B4O72–H2O at 288 K [J]. Acta Geologica Sinica, 2010 (11): 1704–1707.

[12] Song Pengsheng, Fu Hongan. Solubilities and properties of solution in the reciprocal system Li+, Mg2+/SO42-, B4O72-–H2O at 25℃ [J]. Chinese Journal of Inorganic Chemistry, 1991 (7): 344–348.

[13] Zhao Wei. Phase equilibrium of the Quaternary System (Li+, Mg2+/SO42-, B4O72-–H2O) and Its Ternary Subsystem at 323. 15 K [D]. Chengdu: Chengdu University of Technology, (2011).

[14] Sang Shihua, Peng Jiang. Solid-Liquid Equilibria of the Quaternary System K+, Mg2+/SO42-, B4O72-–H2O at 288 K [J]. Journal of Chemical Engineering of Chinese Universities, 2011 (3): 381–384.

[15] Sang Shihua, Peng Jiang, Wei Lina. Solid-Liquid Equilibria of the Quaternary System K+, Mg2+/Cl-, B4O72-–H2O at 288 K [J]. Acta Physico-Chimica Sinica, 2009 (2): 331–335.

[16] Sang Shihua, Peng Jiang, Zhang Zhenlei, Li Ming. Study on phase equilibria of the quaternary system Na+, Mg2+/SO42-, B4O72-–H2O at 288 K [J]. Journal of Sichuan University (Engineering Science edition), 2010 (2): 195–198.

[17] Xiao Longjun. Study on Equilibria in quinary system Li+, K+, Mg2+/SO42-, B4O72-–H2O at 288 K [D]. Chengdu: Chengdu University of Technology, (2010).

[18] Peng jiang. Study on equilibria in quinary system Na+, K+, Mg2+/SO42-, B4O72-–H2O at 288 K [D]. Chengdu: Chengdu University of Technology, (2008).

[19] Zhao Xiangpo. Study on Equilibria in quinary system Na+ (K+), Mg2+/Cl-, SO42-, B4O72-–H2O at 288 K [D]. Chengdu: Chengdu University of Technology, (2010).

[20] Wei Feng. Study on metastable equilibria in quinary system Li+, Na+, K+, Mg2+/B4O72-–H2O at 288 K [D]. Chengdu: Chengdu University of Technology, (2008).