Neutralization of Sulfur-Containing Gases During Coal Filtration Combustion

IF 1.4 4区化学 Q4 PHYSICS, ATOMIC, MOLECULAR & CHEMICAL Russian Journal of Physical Chemistry B Pub Date : 2024-09-11 DOI:10.1134/S199079312470043X

Yu. Yu. Tsvetkova, V. M. Kislov, E. N. Pilipenko, M. V. Salganskaya, M. V. Tsvetkov

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Abstract

The neutralization of sulfur compounds during the filtration combustion of model mixture compositions containing iron sulfide or copper sulfate by adding marble (CaCO₃) is studied. It has been experimentally shown that during burning model charge compositions with additions of both iron sulfide and copper sulfate, replacing chemically inert sapphire with marble leads to a decrease in the combustion temperature by approximately 150–200°C. At the same time, the content of CO₂ in gaseous products increases, and the concentrations of CO and H₂ decrease. The greatest effect on the absorption of sulfur-containing substances when adding marble is shown in experiments where sulfur is present in the fuel in sulfide form: the addition of 50% marble makes it possible to capture 72% of the initial sulfur content, and for compositions with 90% marble in the charge, 85%. The absorption of the sulfur compounds formed during the combustion of model mixture compositions with copper sulfate is much worse. When the charge contains 50 and 85% marble, sulfur-containing compounds were absorbed by only 19 and 24%, respectively.

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煤炭过滤燃烧过程中含硫气体的中和作用

摘要研究了在含有硫化铁或硫酸铜的模型混合物过滤燃烧过程中通过添加大理石（CaCO3）中和硫化合物的问题。实验表明，在燃烧同时添加硫化铁和硫酸铜的模型混合物时，用大理石替代化学惰性蓝宝石可使燃烧温度降低约 150 至 200°C。同时，气态产物中的 CO2 含量增加，CO 和 H2 的浓度降低。在燃料中硫以硫化物形式存在的实验中，添加大理石对吸收含硫物质的影响最大：添加 50%的大理石可吸收 72% 的初始硫含量，而添加 90% 的大理石可吸收 85% 的初始硫含量。对硫酸铜模型混合物燃烧过程中形成的硫化合物的吸收则要差得多。当装料中大理石含量分别为 50% 和 85% 时，含硫化合物的吸收率分别只有 19% 和 24%。

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来源期刊

Russian Journal of Physical Chemistry B 化学-物理：原子、分子和化学物理

CiteScore

2.20

自引率

71.40%

发文量

106

审稿时长

4-8 weeks

期刊介绍： Russian Journal of Physical Chemistry B: Focus on Physics is a journal that publishes studies in the following areas: elementary physical and chemical processes; structure of chemical compounds, reactivity, effect of external field and environment on chemical transformations; molecular dynamics and molecular organization; dynamics and kinetics of photoand radiation-induced processes; mechanism of chemical reactions in gas and condensed phases and at interfaces; chain and thermal processes of ignition, combustion and detonation in gases, two-phase and condensed systems; shock waves; new physical methods of examining chemical reactions; and biological processes in chemical physics.