Experimental Study on the Effect of H2O Concentration on the Degradation of Sulfur Hexafluoride by Two-Stage Tandem DBD

IF 4.3 3区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC
Ying Zhang, Mingwei Wang, Huiyu Tan, Yalong Li*, Lei Yu, Zhaodi Yang and Kun Wan, 
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Abstract

SF6 is a greenhouse gas widely used in the power industry that cannot be directly emitted. This study employs a self-designed two-stage dielectric barrier discharge (DBD) plasma series method that was used to degrade SF6 gas and analyzes the effect of H2O concentration. The results indicate that the SF6 degradation rate (DR) initially increased and then decreased with the rise in the water vapor content. When the added H2O concentration increased from 0.5 to 1.5%, the degradation rate of SF6 increased from 89.49 to 100%, achieving complete degradation of SF6. However, when the H2O concentration further increases to 2.5%, the degradation rate of SF6 decreased to 92.83%. The energy efficiency of SF6 degradation in the primary reaction system first increased and then decreased with the increase of H2O concentration, while that of SF6 in the secondary reaction system first decreased and then increased. It was found that the products of SF6 were SO2F2, SO2, SOF2, and SOF4. The addition of H2O increased the selectivity of SO2 in the decomposition products to 75.17%, and inhibit the formation of SO2F2 and SOF2. This study provides experimental support for the degradation of SF6 waste gas and provides a research direction for its industrial application.

H2O 浓度对两级串联 DBD 降解六氟化硫影响的实验研究
SF6 是一种广泛应用于电力行业的温室气体,不能直接排放。本研究采用自行设计的两级介质阻挡放电(DBD)等离子体串联法来降解 SF6 气体,并分析了 H2O 浓度的影响。结果表明,随着水蒸气含量的增加,SF6 的降解率(DR)先是上升,然后下降。当添加的 H2O 浓度从 0.5% 增加到 1.5% 时,SF6 的降解率从 89.49% 增加到 100%,实现了 SF6 的完全降解。然而,当 H2O 浓度进一步增加到 2.5% 时,SF6 的降解率降至 92.83%。随着 H2O 浓度的增加,一级反应体系降解 SF6 的能效先升高后降低,而二级反应体系降解 SF6 的能效先降低后升高。研究发现,SF6 的产物为 SO2F2、SO2、SOF2 和 SOF4。H2O 的加入使分解产物中 SO2 的选择性提高到 75.17%,并抑制了 SO2F2 和 SOF2 的生成。这项研究为降解 SF6 废气提供了实验支持,并为其工业应用提供了研究方向。
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来源期刊
CiteScore
7.20
自引率
4.30%
发文量
567
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