氧化锰烟气脱硫过程中二硫代锰的形成

Q3 Chemical Engineering

Recent Innovations in Chemical Engineering Pub Date : 2019-10-28 DOI:10.2174/2405520412666190821102847

Pengyan Pu, Lin Yang, Lu Yao, Xia Jiang, Wenju Jiang

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引用次数: 1

摘要

在锰矿浆的烟气脱硫过程中，形成了锰二硫代物（MnS2O6，MD），阻碍了脱硫浸出液的后续有价值的使用。在本研究中，仔细研究了锰脱硫过程中MD的形成和应变。采用不同类型的氧化锰/碳酸锰进行烟气脱硫，并检测了该过程中MD的形成，获得了MD形成和抑制的基本信息。MD是通过SO2与MnO2的非共氧化直接形成的。Mn2O3、Mn3O4和MnCO3增加MD的形成是由于它们对浆料pH的影响。可加工性研究表明，提高浆料的酸度、气体氧含量和反应温度可以有效地抑制MD的形成。抑制MD形成的最佳操作条件是温度高于60°C，氧气含量为10%或更多，浆液pH低于3。不同的锰化合物形成的MD含量不同，在工业应用中可能受矿石配比的控制。用阳极电解液制备脱硫用锰浆，可以很好地抑制MD的形成，为电解锰工业的清洁生产提供了宝贵的技术支持。

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The Formation of Manganous Dithionate in the Manganese Oxide Flue Gas Desulfurization

The Manganous Dithionate (MnS2O6, MD) was formed during the flue gas desulfurization process over manganese ore slurry, which impeded the following valuable using of the desulfurized lixivium. In this study, the MD formation and restraint in the desulfurization process using manganese was carefully investigated. Different type of manganese oxides/carbonate was used for the flue gas desulfurization, and the MD formation with the process was detected to obtain the basic information of the MD formation and restraint. The MD was directly formed by the uncompleted oxidation of SO2 with MnO2. The increased MD formation by Mn2O3, Mn3O4 and MnCO3 was due to their influence on the pH of slurry. Processability study showed that an increase in the acidity of slurry, the gaseous oxygen content and reaction temperature could inhibit the MD formation effectively. The optimum operating conditions to restrain the MD formation were temperature higher than 60°C, 10% or more oxygen and slurry pH lower than 3. The formed MD content was different with the different manganese compounds, which cloud be controlled by the ore-proportioning in industrial application. Using anolyte to prepare the manganese slurry for desulfurization could perform a good MD formation restraint, which provided valuable technical support for the cleaner production of electrolytic manganese industry.

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来源期刊

Recent Innovations in Chemical Engineering Chemical Engineering-Chemical Engineering (all)

CiteScore

2.10

自引率

0.00%

发文量