KF-NaF-AlF3体系结构性质的分子动力学模拟

矿冶工程 Pub Date : 2021-01-01 DOI:10.12677/meng.2021.82009

应斌陈

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引用次数: 0

摘要

近年来低温铝电解质的研究已成为铝电解工业上节能减排的热点问题，对其基本物理化学性质的探索是一个必然的过程。本文运用密度泛函理论与经典分子动力学方法相结合的方法系统研究了1100 K下xKF-2.2NaF-AlF3熔盐体系的结构性质和输运性质。研究结果表明在平衡的高温钾冰晶石熔盐体系中六配位[AlF6]3−、五配位[AlF5]2−、四配位[AlF4]−络合离子共同存在，且六配位铝氟离子集团占主导地位(70%以上)，并会发生部分的离解，生成五配位或者四配位离子团；当KF浓度增大时，电解质体系中游氟原子含量会增加，桥氟含量逐渐降低，体系的聚合程度也会随之下降。此外，KF的加入使得桥氟离子解离，Na、Al的自扩散系数会先增大后降低，体系显示出低粘度高电导率的特性，但当KF浓度达到2%后，电导率会逐渐降低。 The study of low temperature aluminium electrolytes has become a hot issue for energy saving and emission reduction in the aluminium electrolysis industry in recent years, and the exploration of their basic physicochemical properties is an inevitable process. In this paper, the structural and transport properties of the nKF-2.2NaF-AlF3 molten salt system at 1100 K have been systematically investigated using a combination of density flooding theory and classical molecular dynamics methods. The results show that in the equilibrium high-temperature potassium cryolite molten salt system, hexacoordinated [AlF6]3-, pentacoordinated [AlF5]2- and tetracoordinated [AlF4]- complex ions co-exist, and the hexacoordinated aluminium-fluorine ion group dominates (more than 70%) and undergoes partial dissociation to produce pentacoordinated or tetracoordinated ion groups; As the KF concentration increases, the amount of free fluorine atoms in the electrolyte system increases, the bridge fluorine content gradually decreases and the degree of polymerisation of the system decreases. In addition, the addition of KF causes the dissociation of the bridging fluorine ions, the self-diffusion coefficients of Na and Al will first increase and then decrease, and the system shows the characteristics of low viscosity and high conductivity, but when the KF concentration reaches 2%, the conductivity will gradually decrease.

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Molecular Dynamics Simulation for the Structural Properties of the KF-NaF-AlF3 System

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矿冶工程

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期刊介绍： Mining and Metallurgical Engineering magazine was founded in 1981, is now a bimonthly magazine for domestic and international public circulation, by the Changsha Institute of Mining and Metallurgy Research Limited Liability Company and the China Institute of Metals jointly sponsored, using ‘actively promote the reporting of mining and metallurgy industry new theories, new technologies, new techniques, new equipment, and strive to promote the technical progress of the industry’ as the purpose of the publication. The main columns are Mining, Mineral Processing, Metallurgy, Materials, Mining Economy and Management, etc. It focuses on reporting the cutting-edge dynamics of the mining and metallurgy industry, exchanging mining and metallurgy scientific and technological achievements, technical experience, transmitting mining and metallurgy scientific and technological information, and playing the role of a bridge and a link to turn scientific research achievements into productive forces. The quality of papers in this journal is high, among which the ratio of papers of various fund projects reaches more than 60%. The total score of the comprehensive evaluation of the journal is among the best in the national metallurgical engineering technology core journals. Mining and Metallurgical Engineering is the first batch of journals awarded as ‘China Journal Square Double Effect Journal’ by the Ministry of Science and Technology and the General Administration of Press and Publication of the People's Republic of China, and it is the national Chinese core journal, Chinese scientific and technological core journal, and the core academic journal of China Science Evaluation and Research Centre, It is a national Chinese core journal, Chinese science and technology core journal, core academic journal of China Science Evaluation and Research Centre, excellent journal of China Society for Metals, excellent publication of China Nonferrous Metals, double top ten journals of Hunan Province, top ten scientific and technological journals of Hunan Province, excellent publication of Hunan Province, selected journal of Hunan Province to cultivate world-class Hunan version of the scientific and technological journals construction project echelon journals building projects, world nonferrous metals high-quality scientific and technological journals classification catalogue of T2 level journals, high-quality scientific and technological journals classification catalogue of Metallurgical Engineering and Technology T3 level journals, China Knowledge Network Academic Journal It has been selected as one of the journals in Q1 area of China Knowledge Network Academic Journals Subject Influence, and selected in World Journal Clout Index (WJCI) report; it has been included in the full text of China Knowledge Network (CKN), China Academic Journal CD-ROM Edition (CAJ CD-ROM), Wanfang Data (WFD), Chongqing Wipo Information (CQWI), Changjiang Literature Library (CKL), etc., and has been included in the American Chemical Abstracts (CA), the Russian Abstracts Magazine (RAS), and the Japanese Science and Technology Literature Express (CBST). It is also included in Chemical Abstracts (CA) of USA, Abstracts Magazine of Russia, Scientific and Technical Literature (CBST) of Japan, Mining and Metallurgy Bulletin of UK and other authoritative foreign abstracts searching organisations.