Mg(BO2)2在MgSO4和MgCl2-MgSO4水溶液中分解的相平衡与物种化学平衡

魏凤单; 周桓; 郝晴; 赵鋆; 阎波

Mg(BO₂)₂在MgSO₄和MgCl₂-MgSO₄水溶液中分解的相平衡与物种化学平衡

Phase Equilibria and Species Chemical Equilibrium of Mg(BO₂)₂ Decomposed in MgSO₄ and MgCl₂-MgSO₄ Aqueous Solutions 

投稿时间：2022-05-10 修订日期：2022-06-12

DOI：10.12119/j.yhyj.202204001

中文关键词: Mg(BO₂)₂ MgSO₄体系拉曼光谱化学平衡溶液结构

英文关键词:Magnesium metaborate Magnesium sulfate Raman spectroscopy Chemical equilibrium Solution structure

基金项目:国家自然科学基金(批准号:U1707602,U1407204) 。

作者	单位
魏凤单	天津科技大学化工与材料学院,天津 300457
周桓	天津科技大学化工与材料学院,天津 300457
郝晴	天津科技大学化工与材料学院,天津 300457
赵鋆	天津科技大学化工与材料学院,天津 300457
阎波	天津科技大学海洋与材料学院,天津 300457 作者简介:周桓,教授,博士生导师,中国盐业专家,天津市级教学团队教师。研究方向:卤水化工与热力学研究和盐文化研究。E-mail:zhouhuan@tust.edu.cn 。

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中文摘要:

硫酸镁亚型盐湖老卤是MgCl₂、MgSO₄的饱和溶液体系,富集了Mg、B、Li等元素。本文针对含硼水盐体系热力学难以表达的问题,开展了硼在水盐体系存在形态及其平衡关系的研究。利用易于水解的Mg(BO₂)₂作为硼源,借助拉曼光谱和X射线衍射(XRD)为检测手段,定量研究Mg(BO₂)₂在MgSO₄-H₂O、MgSO₄-MgCl₂-H₂O体系中水解硼物种转化规律。结果表明:(1)Mg(BO₂)₂在MgSO₄溶液中的水解固相为MgB₂O(OH)6、MgB₄O₇·9H₂O和Mg(OH)₂；在MgSO₄-MgCl₂-H₂O溶液中水解固相为Mg₂B₆O₁₁·15H₂O、MgB₄O₇·9H₂O、Mg₂Cl(OH)₃·4H₂O。(2)Mg(BO₂)₂在MgSO₄溶液中水解,液相硼物种主要有B₃O₃(OH)-₄、B₃O₃(OH)₅2-、B(OH)-₄、B₄O₅(OH)₄2-、H₃BO₃,其分布受MgSO₄浓度影响很大,MgSO₄浓度从0增加至饱和,B₃O₃(OH)-₄始终占总硼量的50.07%以上,B₃O₃(OH)₅2-占液相总硼从4.77%上升至37.16%为第2化学物种。(3)在MgSO₄-MgCl₂-H₂O溶液中,硼物种的主要形态有B₃O₃(OH)-₄、B₃O₃(OH)₅2-、B(OH)-₄,其分布随[Cl₂2-]/([Cl₂2-]+[SO₄2-])变化很大,在MgCl₂和MgSO₄的共饱溶液中,分别占液相总硼量的58.91%,14.62%和12.81%。(4)液相硼物种之间平衡关系的活度商lnQ,不仅与溶液pH、水活度有关,还与MgSO₄、MgCl₂摩尔浓度呈二元线性关系,这样就可将硼在H₃BO₃-NaOH体系物种分布关系的lnQ扩展到 (MgSO₄,MgCl₂,MgSO₄-MgCl₂)水溶液的多元体系。由此获得硼物种的量化关系,可为推算硼在水盐体系的物种分布,进而计算含硼电解质溶液热力学性质提供依据。

英文摘要:

Bittern of magnesium sulfate subtype salt lake is saturated with MgCl₂ and MgSO₄,which enriches elements of Mg,B and Li. Expressing the thermodynamics of water salt system containing boron is difficult,the existing species and chemical equilibrium of boron in water salt system were studied. In this paper,the decomposition and species equilibrium behaviors of Mg(BO₂)₂ in MgSO₄ and MgSO₄-MgCl₂ aqueous solution were quantitatively studied by means of Raman spectroscopy and X-ray diffraction (XRD). The results are as follows. (1) The solid phases of Mg(BO₂)₂ decomposed in MgSO₄ solution are MgB₂O(OH)₆,MgB₄O₇·9H₂O and Mg(OH)₂. And the decomposed solid species in MgSO₄-MgCl₂ aqueous solution are Mg₂B₆O₁₁·15H₂O,MgB₄O₇·9H₂O,Mg₂Cl(OH)₃·4H₂O. (2) Liquid species of Mg(BO₂)₂ decomposed in MgSO4 aqueous solution were determined to be B₃O₃(OH)-₄,B₃O₃(OH)₅2-,B(OH)-₄,B₄O₅(OH)₄2- and H₃BO₃. And with the MgSO₄ concentration from 0 to saturation,B₃O₃(OH)-₄ accounts for more than 50.07% of the total boron quantity,and B₃O₃(OH)₅2- increases from 4.77% to 37.16%; (3) In MgSO₄-MgCl2 aqueous solution,B₃O₃(OH)-₄,B₃O₃(OH)₅2- and B(OH)-₄ are the main species,when MgCl₂ and MgSO₄ are co-saturation solution,respectively accounting for 58.91%,14.62% and 12.81%. (4) The activity quotient lnQ between boron species is mainly related to pH of liquid,also limited to water activity,meanwhile,it takes the linear relationship with molar concentrations of MgSO₄ and MgCl₂. So,lnQ in H₃BO₃-NaOH system can be extended to the multicomponent system of(MgSO₄,MgCl₂ and MgSO₄-MgCl₂) aqueous solution. Therefore,the quantitative relationship of boron species can be obtained,which can provide a basis for calculating the species distribution of boron in salt water system and the thermodynamic properties of boron containing electrolyte solution.

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