Study on H2S Occurrence in Low Sulfur Coal Seams

Fei Gao, Zhe Jia, J. Xia, Dapeng Wang, Yulong Yang, Yafei Shan, Jinlong Shen
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Abstract

Coal samples from the Shanxi Shaping coal mine were selected to investigate the occurrence of H2S in low sulfur coal seams. The adsorption mechanism of coal to H2S was explored, and an occurrence equation for H2S in coal seams was fitted through adsorption experiment results. The results showed that under ambient temperature and pressure conditions, the H2S adsorbed by coal reached equilibrium within 24 h. The increase in H2S concentrations and the moisture content of coal samples resulted in an increase in the adsorption capacity of H2S. Chemical adsorption of H2S by the coal also occurred. The total sulfur content in the coal increased, and water promoted the conversion from H2S to sulfur in coal. After adsorption, most of the H2S remains in the coal structure in the form of inorganic sulfur, such as sulfur hydride, iron sulfide sulfur, and monomeric sulfur, and a small proportion of H2S is bonded in the structure of the coal in the form of organic sulfur such as thiophene, C-S-C, and C-SH. Therefore, the higher the total sulfur content in coal, the greater the occurrence of H2S. The total amount of H2S increased exponentially with the concentration of free H2S and the moisture content of coal at equilibrium. This meant that the total amount of H2S in the coal seam could be estimated by fitting an equation according to the concentration of free H2S and the moisture content of coal seams. The concentration of free H2S decreased linearly with the increase in moisture content of the coal, therefore, the concentration of H2S in space could be reduced by injecting water into coal seams.
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低硫煤层中硫化氢赋存规律研究
选取山西沙坪煤矿的煤样,对低硫煤层中硫化氢的赋存状态进行了研究。探讨了煤对H2S的吸附机理,并通过吸附实验结果拟合了煤层中H2S的赋存方程。结果表明:在常温常压条件下,煤对H2S的吸附在24 h内达到平衡;H2S浓度的增加和煤样含水率的增加导致煤样对H2S的吸附能力增加。煤对H2S的化学吸附也发生了。煤中总硫含量增加,水促进了煤中H2S向硫的转化。吸附后,大部分H2S以硫氢化物、硫化铁硫、单体硫等无机硫的形式留在煤的结构中,少部分H2S以噻吩、C-S-C、C-SH等有机硫的形式结合在煤的结构中。因此,煤中总硫含量越高,H2S的发生量越大。H2S总量随游离H2S浓度和煤的平衡含水率呈指数增长。这意味着可以根据游离H2S浓度与煤层含水率拟合方程来估算煤层中H2S总量。随着煤含水率的增加,游离H2S浓度呈线性下降,因此,煤层注水可以降低空间H2S浓度。
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