不同碳种还原二氧化硫制硫黄特性OA
Study on the characteristics of sulfur dioxide reduction to sulfur by different carbon species
相比于二氧化硫制硫酸,碳热还原二氧化硫制硫黄是从含二氧化硫烟气中回收硫元素更具经济价值的资源化方式.本文为了研究开发碳热还原二氧化硫制硫黄技术,选择活性炭、蒙古褐煤、生物质炭和新疆哈密煤4种600~850μm的炭颗粒进行实验.通过调整炭颗粒装填量和反应温度,获得了最佳反应温度区间与最优炭种,并通过对实验尾气进行色谱分析深入研究了反应机理.结果表明,碳热反应过程十分复杂,有多种副产物产生;硫黄生成的最佳反应温度区间为700~1000℃,各种炭的硫黄产率最大值均出现在此区间;新疆哈密煤为目前实验炭种中的最优炭种,可以获得最大硫黄收率;在最佳反应温度区间,碳热还原二氧化硫制硫黄需要先生成硫化氢、硫化羰等中间产物,再与二氧化硫反应生成硫黄,而不是直接碳热生成硫黄,且主要中间产物为硫化羰.
Compared with the production of sulfuric acid from sulfur dioxide,carbon thermal reduction of sulfur dioxide to produce sulfur is an important method for recovery of sulfur resources from SO2-containing flue gas,which is more valuable in economy.In order to study and develop the technology of reducing sulfur dioxide to sulfur by carbothermal reduction,four types of carbon particles with a particle size of 600-850μm,namely activated carbon,Mongolian lignite,biomass carbon and Xinjiang Hami coal,were selected for the experiment.The optimum reaction temperature range and the best carbon species were obtained by adjusting the loading amount of carbon particles and the reaction temperature.The reaction mechanism was further studied by the chromatographic analysis on the experimental tail gas.Research results showed that the carbon-thermal reaction process was very complex and generates a variety of by-products.The optimum reaction temperature range of carbon thermal reduction was 700℃to 1000℃,and in this range the maximum sulfur yields of various carbons occur.Xinjiang Hami coal was the best carbon among the tested carbon species,which could obtain the maximum sulfur yield.During the carbon thermal reduction of sulfur dioxide to sulfur in the optimum reaction temperature range,hydrogen sulfide,carbonyl sulfur and other intermediate products were regenerated firstly and then converted to be sulfur,rather than direct carbon thermal generation of sulfur,and carbonyl sulfur was the main intermediate product.
张旭;姚亮
中国恩菲工程技术有限公司,北京 100038中国恩菲工程技术有限公司,北京 100038||中国科学院过程工程研究所,北京 100190
化学化工
二氧化硫碳热反应硫黄反应机理炭
sulfur dioxidecarbon thermal reductionsulfurreaction mechanismcarbon
《化工进展》 2026 (4)
2500-2524,25
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