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不同活化条件下粉煤灰中锂的酸碱溶出特性
引用本文:赵泽森,高建明,郭彦霞,陈荣峰,程芳琴. 不同活化条件下粉煤灰中锂的酸碱溶出特性[J]. 环境科学研究, 2018, 31(3): 569-576. DOI: 10.13198/j.issn.1001-6929.2017.03.70
作者姓名:赵泽森  高建明  郭彦霞  陈荣峰  程芳琴
作者单位:山西大学资源与环境工程研究所, 国家环境保护煤炭废弃物资源化高效利用技术重点实验室, 山西低附加值煤基资源高值利用协同创新中心, 山西 太原 030006
基金项目:国家重点研发计划项目(No.2017YFB0603101);山西省煤基低碳科技重大专项(No.MC2016-05)
摘    要:粉煤灰提取氧化铝作为其资源高值利用的重要途径之一引起广泛关注.由于粉煤灰中还含有一定丰度Li(锂)元素,在提取氧化铝的同时实现Li的协同提取对于进一步提高粉煤灰的资源利用效益意义重大.为认识粉煤灰中Li的溶出特性,分别考察了原粉煤灰、CaO煅烧活化粉煤灰和Na2CO3煅烧活化粉煤灰中Li在酸性溶液和碱性溶液中的溶出特性,并采用XRD(X-射线衍射)分析了粉煤灰浸取前后的物相变化,结合Li溶出率的变化,阐释了Li在不同浸出条件下溶出率差异的原因.结果表明:在相同浸出温度(100℃)下粉煤灰直接在酸性溶液和碱性溶液中的溶出率相对较低,分别仅为28%和36%;而经CaO和Na2CO3活化后粉煤灰中Li的溶出率显著提高,活化后粉煤灰中Li在酸性溶液中的溶出率可达到98%和86%,均高于碱性溶液中Li的溶出率(86%和67%).XRD的分析结果进一步表明,部分Li可能赋存于非晶相或晶相表面,这部分Li易于被酸或碱直接浸出;部分Li可能镶嵌在莫来石、石英等晶相内部,不易被溶出,经CaO和Na2CO3助剂活化后,部分Li又重新嵌入到钙黄长石、霞石等新生成物相的晶格中,而这些物相更易于与酸反应,因而酸性溶液中Li的溶出率普遍高于碱性溶液中的结果. 

关 键 词:粉煤灰   Li   活化   溶出特性
收稿时间:2017-09-11
修稿时间:2017-11-02

Acid-Alkali Dissolution Characteristics of Lithium in Fly Ash under Different Activation Conditions
ZHAO Zesen,GAO Jianming,GUO Yanxi,CHEN Rongfeng and CHENG Fangqin. Acid-Alkali Dissolution Characteristics of Lithium in Fly Ash under Different Activation Conditions[J]. Research of Environmental Sciences, 2018, 31(3): 569-576. DOI: 10.13198/j.issn.1001-6929.2017.03.70
Authors:ZHAO Zesen  GAO Jianming  GUO Yanxi  CHEN Rongfeng  CHENG Fangqin
Affiliation:State Environmental Protection Key Laboratory of Efficient Utilization Technology of Coal Waste Resources, Shanxi Collaborative Innovation Center of High Value-added Utilization of Coal-Related Wastes, Institute of Resources and Environment Engineering, Shanxi University, Taiyuan 030006, China
Abstract:The extraction of alumina from coal fly ash as one of the important value-added ways causes wide concerns. The extraction of alumina and lithium simultaneously is of great significance to the improvement of the utilization efficiency since the coal fly ash contains a certain amount of lithium. To clear understand the dissolution characteristics of lithium (Li) in fly ash, the dissolution characteristics of Li in acidic solution and alkaline solution from the original fly ash, activated by CaO and Na2CO3 were investigated respectively, and the phase transformations of fly ash before and after leaching were analyzed by X-Ray diffraction. The results show that the fly ash directly leached by acidic solution and alkaline solution presented a relatively lower dissolution of Li (28% and 36%, respectively) at 100℃. The dissolutions of lithium, however, were significantly improved after coal fly ash activated by CaO and Na2CO3. The dissolutions of Li in acidic solution reached 98% and 86% after the fly ash activated by CaO and Na2CO3, which were higher than those in alkaline solution (86% and 67%). The XRD analysis results demonstrate that some Li is easier to be leached by acid or alkali which might be deposited in the amorphous or the surfaces of crystalline minerals. Some Li might be embedded in mullite, quartz and other crystalline phase and leached hardly. However, they were again embedded in calcium melilite and nepheline after CaO and Na2CO3 activation and the dissolution of Li were increased. The dissolution of Li in acidic solution was generally higher than that in alkaline solution owing to the reaction between calcium melilite and nepheline with acid is easier than those with alkali. 
Keywords:fly ash  lithium  activation  dissolution characteristics
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