针对高Mg和Li质量比盐湖卤水提锂困难的问题,提出利用LiFePO4/FePO4材料对盐湖卤水进行选择性提锂的思路.在热力学计算的基础上绘制298.15 K时Me(Li, Na, K, Mg)-Fe-P-H2O体系的?—pH图,并讨论FePO4对盐湖中Na+、K+、Mg2+与Li+的选择性吸附问题.结果表明:当离子浓度为0.1 mol/L、体系氧化还原电位降到0.36 V(vs SCE)时,FePO4中+3价的铁即被还原为+2价,同时Li+嵌入FePO4晶格生成LiFePO4;而体系电位需降到0.132 V和0.073 V才分别生成KFePO4和NaFePO4,说明材料对Li的选择性优于Na和K的,而Mg0.5FePO4则在计算分析的范围内不能稳定存在,说明FePO4对Mg2+无吸附性.因而,在适当的电位范围内(本研究的计算条件下为0.173~0.33 V)即可利用磷酸铁材料实现Li与Na、K、Mg等元素的选择性提取,而吸附锂后通过调节氧化还原电位大于约0.33 V,即可实现LiFePO4材料中Li的脱出.
@@@@LiFePO4/FePO4 material was chosen as ion-sieve for selectively extracting Li from high Mg/Li mass ratio brine. Thermodynamic analysis was conducted about selectivity of adsorption of Na+, K+, Mg2+and Li+ by FePO4 ion-sieve. The corresponding ?-pH diagrams of Me (Li, Na, K, Mg)-Fe-P-H2O system at 298.15K were plotted and analyzed. The results show that, under the condition of ion concentration 0.1 mol/L, the redox potential of Me (Li, Na, K, Mg)-Fe-P-H2O system is controlled not higher than 0.36V (vs SCE), Fe3+in FePO4 is reduced to Fe2+, and, Li+is inserted into FePO4 crystal lattice to form LiFePO4 synchronously. KFePO4 and NaFePO4 will not be obtained until the potential of the system is reduced to 0.132 V and 0.073 V, respectively. Li+is absorbed preferentially compared with Na+and K+by FePO4 ion-sieve. Mg0.5FePO4 can’t exist steadily in the studied range, which means that Mg2+can’t be absorbed by the material. Therefore, the FePO4 ion-sieve can be used to selectively extract Li+when the redox potential being set within 0.173~0.33 V. After extraction, Li can be de-intercalated from LiFePO4 by setting the potential of system above 0.33 V.
参考文献
| [1] | 高峰,郑绵平,乜贞,刘建华,宋彭生.盐湖卤水锂资源及其开发进展[J].地球学报,2011(04):483-492. |
| [2] | 陈白珍,马立文,石西昌,徐徽,杨喜云.锂离子筛前驱体制备方法的研究进展[J].无机盐工业,2009(07):1-4. |
| [3] | 彭正顺;严玉顺;姜长印;万春荣 高海春 .盐湖卤水提锂的研究进展[J].化学通报,1997,12:11-13. |
| [4] | 石西昌,余亮良,陈白珍,徐徽,杨喜云.锂锰氧化物离子筛结构和掺杂研究进展[J].中国锰业,2009(03):17-20. |
| [5] | CLEARFIELD A .Role of ion exchange in solid-state chemistry[J].Chemical Reviews,1988,88(01):125-148. |
| [6] | 赵中伟,霍广生.Li-Mn-H2O系热力学分析[J].中国有色金属学报,2004(11):1926-1933. |
| [7] | HIDEKI OGINO,TAKAO OI,袁复怀,肖应凯,祁海萍.过二硫酸铵法从LiMn2O4中萃取锂及所获得的吸附剂对锂同位素的选择性[J].过滤与分离,2000(01):41-45. |
| [8] | QI Feng;YOSHITAKA M;HIROFUMI K;KENTA O .Lithium (1+) extraction/insertion with spinel-type lithium manganese oxides[J].Characterization of Redox-type and Ion-exchange-type Sites,1992,8(07):1861-1867. |
| [9] | OOI K;YOSHITAKA M;JITSUO S .Mechanism of Li+insertion spinel-type manganese oxide[J].Redox and Ion-exchange Reactions,1991,7(06):1167-1171. |
| [10] | Li-Wen Ma;Bai-Zhen Chen;Ya Chen .Preparation, characterization and adsorptive properties of foam-type lithium adsorbent[J].Microporous and mesoporous materials: The offical journal of the International Zeolite Association,2011(1):147-153. |
| [11] | MA Li-wen;CHEN Bai-zhen;SHI Xi-chang;ZHANG Wen ZHANG Kun .Stability and Li+ extraction/adsorption properties of LiMxMn2?xO4(M=Ni,AI,Ti;0≤x≤1) in aqueous solution[J].Colloids and Surfaces A:Physicoehem Eng Aspects,2010,369(1/3):88-94. |
| [12] | YOSHIO O;TAKASHI I;HIROMICHI H .A new inorganic material with high selective adsorbability for lithium ions[J].Chemistry and Industry,1988,24:786. |
| [13] | 钟辉 .偏钛酸型锂交换体制备、机理及其从液态锂矿提锂研究[D].成都理工大学,2004. |
| [14] | 李骁龙,李少鹏,张钦辉,于建国.TiO2离子筛的合成及锂吸附性能研究[J].功能材料,2009(08):1338-1341. |
| [15] | Xu-heng Liu;Zhong-wei Zhao .Synthesis of LiFePO4/C by solid-liquid reaction milling method[J].Powder Technology: An International Journal on the Science and Technology of Wet and Dry Particulate Systems,2010(3):309-313. |
| [16] | LUO Jia-yan;CUI Wang-jun;HE Ping;XIA Yong-yao .Raising the cycling stability of aqueous lithium-ion batteries by eliminating oxygen in the electrolyte[J].Nature Chemistry,2010,2:760-765. |
| [17] | 黄可龙,杨赛,刘素琴,王海波.磷酸铁锂在水溶液中的循环伏安研究[J].电源技术,2007(05):386-388. |
| [18] | Mi CH;Zhang XG;Li HL .Electrochemical behaviors of solid LiFePO4 and Li0.99Nb0.01FePO4 in Li2SO4 aqueous electrolyte[J].Journal of Electroanalytical Chemistry: An International Journal Devoted to All Aspects of Electrode Kinetics, Interfacial Structure, Properties of Electrolytes, Colloid and Biological Electrochemistry,2007(2):245-254. |
| [19] | UELI B;WENJIAO X.Exploitation of lithium in brines by hsü's method[M].Amsterdam:Paradoxes in Geology,2001:421-428. |
| [20] | 赵中伟,刘旭恒.Li-Fe-P-H2O系热力学分析[J].中国有色金属学报,2006(07):1257-1263. |
| [21] | 林传仙.矿物及有关化合物热力学数据手册[M].北京:科技出版社,1985 |
| [22] | 伊赫桑?巴伦.纯物质热化学数据手册[M].北京:科学出版社,2003 |
| [23] | LGLESIA A L;FéLIX J F .Estimating the thermodynamic properties of phosphate minerals at high and low temperature form the sum of constituent units[J].Geochimica et Cosmochimica Acta,1994,58(19):3983-3991. |
| [24] | 高世扬;宋彭生;夏树屏;郑锦平.盐湖化学:新类型硼锂盐湖[M].北京:科技出版社,2007 |
| [25] | 赵中伟;刘旭恒;司秀芬;陈爱良 .一种选择性提取锂的磷酸铁离子筛及其应用[P].CN102049237.A,2011-05-11. |
- 下载量()
- 访问量()
- 您的评分:
-
10%
-
20%
-
30%
-
40%
-
50%