首页|期刊导航|低碳化学与化工|微波辅助合成镁铝类水滑石基氧化物及其在含O2/H2S气氛下的COS水解催化行为

微波辅助合成镁铝类水滑石基氧化物及其在含O2/H2S气氛下的COS水解催化行为

吴俊宏段新伟杨敏米杰王建成武蒙蒙

低碳化学与化工2026，Vol.51Issue(1)：98-107,10.

低碳化学与化工2026，Vol.51Issue(1)：98-107,10.DOI:10.12434/j.issn.2097-2547.20250073

微波辅助合成镁铝类水滑石基氧化物及其在含O2/H2S气氛下的COS水解催化行为

Microwave-assisted synthesis of MgAl hydrotalcite-based oxides and their catalytic performance for COS hydrolysis under atmosphere containing O2/H2S

吴俊宏 ¹段新伟 ²杨敏 ¹米杰 ²王建成 ¹武蒙蒙²

作者信息

1. 太原理工大学省部共建煤基能源清洁高效利用国家重点实验室,山西太原 030024
2. 太原理工大学煤科学与技术教育部重点实验室,山西太原 030024
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摘要

Abstract

COS hydrolysis catalysis is important in industrial gas purification and desulfurization.MgAl hydrotalcite-based oxides(MgAl-MMO)can effectively catalyze COS hydrolysis in a simple atmosphere(COS+H2O).However,the catalytic effect of O2/H2S on MgAl-MMO is not clear,and the existing synthesis methods are time-consuming.The feasibility of microwave-assisted synthesis of MgAl-MMO was explored and its catalytic behavior under reaction gas containing O2/H2S was investigated.The results show that the best performance of the catalyst for COS hydrolysis is achieved by microwave crystallization at 80℃and n(Mg)/n(Al)of 2.The COS conversion rate and H2S selectivity of the catalysts are 100.0%and maintain for 540 min in in the reaction gas(O2 volume fraction of 1.0%).However,the COS conversion rate and H2S selectivity decrease significantly(by 63.2%and 68.8%,respectively)when the O2 volume fraction increases to 1.5%,which is mainly attributed to the increase of sulfur deposition on the catalyst surface due to the catalytic oxidation of H2S at high O2 volume fraction.H2S in the O2-free environment leads to catalyst poisoning during the catalytic process,and the degree of poisoning increases with the increase of H2S mass concentration:COS conversion rate and H2S selectivity with 198 mg/m3 H2S decrease to 37.4%and 5.3%after 100 mintutes,respectively.The coexistence of 1.0%O2 and 198 mg/m3 H2S further accelerate the catalyst deactivation,exacerbate the surface sulfation and the relative content of medium bases and weak bases decreased significantly,and the detrimental effect of H2S on the catalyst is significantly greater than that of O2,with the COS conversion rate and the H2S selectivity of only 20.2%and 1.4%,respectively,after 85 minutes of reaction.

关键词

微波合成/镁铝类水滑石基氧化物/COS水解/H2S/失活

Key words

microwave synthesis/MgAl hydrotalcite-based oxides/COS hydrolysis/H2S/deactivation

分类

化学化工

引用本文复制引用

吴俊宏,段新伟,杨敏,米杰,王建成,武蒙蒙..微波辅助合成镁铝类水滑石基氧化物及其在含O2/H2S气氛下的COS水解催化行为[J].低碳化学与化工,2026,51(1):98-107,10.

基金项目

国家自然科学基金面上项目(22278294) （22278294）

山西省自然科学基金面上项目(20210302123191). （20210302123191）

低碳化学与化工

ISSN：1001-9219

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