Alkali-fluoride-salt-accelerated oxidation behavior of graphite under air atmosphere

IF 1.7 4区化学 Q3 CHEMISTRY, INORGANIC & NUCLEAR Journal of Fluorine Chemistry Pub Date : 2024-07-01 DOI:10.1016/j.jfluchem.2024.110310

Meicheng Xu , Xiangmin Xie , Xian Tang , Cheng Yang , Zhean Su

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Abstract

Air ingress accident scenarios may result in the oxidation of graphite matrix materials and cause serious safety problems in molten salt reactor. However, the oxidation behavior of the molten-salt-infiltrated graphite remains elusive. In this study, the effect of alkali fluoride salts (LiF, NaF, KF and ternary salt FLiNaK) on the oxidation behavior of graphite powder under air atmosphere was investigated. Thermogravimetric analysis and oxidation tests manifest that the initial oxidation temperature of the graphite is reduced from 720 °C to 510–610 °C, because of the presence of the alkali fluoride salts. The catalytic oxidation effect follows the order of KF > NaF > LiF. Careful characterizations reveal that the pristine graphite is mainly oxidized at the graphite edges, while salt-infiltrated graphite is mainly damaged at the graphitic basal planes. Density functional theory calculations suggest that the doping of alkali metal atoms does not change the physical adsorption feature of the oxygen molecule on the graphite plane surface, but increases its adsorption energy to facilitate the graphite oxidation reactions.

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石墨在空气环境下的碱-氟化物-盐加速氧化行为

进气事故可能会导致石墨基体材料氧化，并给熔盐反应堆带来严重的安全问题。然而，熔盐渗入石墨的氧化行为仍然难以捉摸。本研究探讨了碱氟化盐（LiF、NaF、KF 和三元盐 FLiNaK）对空气环境下石墨粉氧化行为的影响。热重分析和氧化试验表明，由于碱氟化盐的存在，石墨的初始氧化温度从 720 ℃ 降至 510-610 ℃。催化氧化效果遵循 KF > NaF > LiF 的顺序。仔细的特性分析表明，原始石墨主要在石墨边缘被氧化，而盐渗入的石墨主要在石墨基面被破坏。密度泛函理论计算表明，碱金属原子的掺杂不会改变氧分子在石墨平面表面的物理吸附特征，但会增加其吸附能，从而促进石墨氧化反应。

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来源期刊

Journal of Fluorine Chemistry 化学-无机化学与核化学

CiteScore

3.80

自引率

10.50%

发文量

审稿时长

33 days

期刊介绍： The Journal of Fluorine Chemistry contains reviews, original papers and short communications. The journal covers all aspects of pure and applied research on the chemistry as well as on the applications of fluorine, and of compounds or materials where fluorine exercises significant effects. This can include all chemistry research areas (inorganic, organic, organometallic, macromolecular and physical chemistry) but also includes papers on biological/biochemical related aspects of Fluorine chemistry as well as medicinal, agrochemical and pharmacological research. The Journal of Fluorine Chemistry also publishes environmental and industrial papers dealing with aspects of Fluorine chemistry on energy and material sciences. Preparative and physico-chemical investigations as well as theoretical, structural and mechanistic aspects are covered. The Journal, however, does not accept work of purely routine nature. For reviews and special issues on particular topics of fluorine chemistry or from selected symposia, please contact the Regional Editors for further details.