Study on the Dissociation of Cryolite in SPL

IF 2.9 4区工程技术 Q2 CHEMISTRY, MULTIDISCIPLINARY

Korean Journal of Chemical Engineering Pub Date : 2025-03-06 DOI:10.1007/s11814-025-00412-5

Fangheng Tang, Xiping Chen, Hao Liu, Hongwei Xuan

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Abstract

The spent pot lining of aluminum electrolysis (SPL) is a typical harmful solid waste discharged from the production process of primary aluminum. It contains about 30% of fluoride and 0.2% of cyanide, which is a valuable fluorine-containing resource. With SPL as raw material, sodium carbonate was used as a reagent, and dissociation of cryolite was investigated by a baking process. Gibbs free energy of cryolite dissociation was calculated and the reaction mechanism of cryolite was discussed. At the same time, the effects of reagent addition ratio, baking temperature and reaction time on the dissociation of cryolite in SPL were discussed. The results show that under the conditions of a reagent addition ratio of 30–35wt%, baking temperature of 800–850 ℃, and reaction time of 3–3.5 h, the phase of cryolite and mullite in the SPL disappears, cryolite is transformed into sodium fluoride and sodium metaaluminate compounds, and mullite is transformed into nepheline or feldspar. The concentration of fluoride ion in clinker leaching solution increased to 8.84 g/L, almost two times that of primary concentration 4.56 g/L in SPL, and the effect of dissociation was obvious, which will be beneficial to the subsequent recovery of fluorides.

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冰晶石在SPL中解离的研究

铝电解废炉衬是原铝生产过程中排放的典型有害固体废物。它含有约30%的氟化物和0.2%的氰化物，是一种宝贵的含氟资源。以SPL为原料，以碳酸钠为试剂，用焙烧法研究了冰晶石的解离。计算了冰晶石解离的吉布斯自由能，讨论了冰晶石的反应机理。同时，讨论了试剂添加比、焙烧温度和反应时间对冰晶石在SPL中解离的影响。结果表明：在试剂添加比为30 ~ 35wt%、焙烧温度为800 ~ 850℃、反应时间为3 ~ 3.5 h的条件下，SPL中冰晶石和莫来石的相消失，冰晶石转变为氟化钠和偏铝酸钠化合物，莫来石转变为霞石或长石。熟料浸出液中氟离子浓度提高到8.84 g/L，是SPL初始浓度4.56 g/L的近2倍，解离效果明显，有利于后续氟化物的回收。

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来源期刊

Korean Journal of Chemical Engineering 工程技术-工程：化工

CiteScore

4.60

自引率

11.10%

发文量

310

审稿时长

4.7 months

期刊介绍： The Korean Journal of Chemical Engineering provides a global forum for the dissemination of research in chemical engineering. The Journal publishes significant research results obtained in the Asia-Pacific region, and simultaneously introduces recent technical progress made in other areas of the world to this region. Submitted research papers must be of potential industrial significance and specifically concerned with chemical engineering. The editors will give preference to papers having a clearly stated practical scope and applicability in the areas of chemical engineering, and to those where new theoretical concepts are supported by new experimental details. The Journal also regularly publishes featured reviews on emerging and industrially important subjects of chemical engineering as well as selected papers presented at international conferences on the subjects.