机构地区:[1]中国科学院山西煤炭化学研究所煤炭高效低碳利用全国重点实验室,山西太原030001 [2]中国科学院大学,北京100049
出 处:《燃料化学学报(中英文)》2024年第10期1412-1425,共14页Journal of Fuel Chemistry and Technology
基 金:国家自然科学基金(21978313);中国科学院山西煤炭化学研究所创新基金(SCJC-DT-2022-05);煤转化国家重点实验室自主研究课题项目(2020BWZ002);中国科学院青年创新促进会人才项目(2020181)资助。
摘 要:以低温等离子体和催化剂耦合法将H_(2)S和CO_(2)混合酸气一步转化为合成气,既完成了两者清洁化处理,又实现了资源化利用,是一条制备合成气的新路线。本研究采用铜、锌为助剂对硫化钼催化剂改性,显著提升了其催化H_(2)S-CO_(2)制合成气反应性能。结合多种分析表征手段对比两种助剂引入后对硫化钼催化剂结构、组成、形貌、化合价态等物化特征的影响。通过控制低温等离子体放电条件,深入探究了两种助剂对低温等离子体下催化转化H_(2)S和CO_(2)酸气制合成气的反应性能影响规律和关键因素。研究发现,引入铜、锌助剂后,硫化钼活性相粒径减小且分散度高,提供了更多活性位点。同时也增强了对H_(2)S和CO_(2)分子吸附强度,从而更利于H_(2)S和CO_(2)分子的吸附活化,揭示出低温等离子体与改性硫化钼催化剂协同反应的构效关联。有关理论研究丰富拓展了低温等离子体-催化协同理论,并为改性硫化钼材料的合成提供借鉴。The petrochemical,natural gas,and coal chemical industries will produce a large number of hydrogen sulfide(H_(2)S)and carbon dioxide(CO_(2))mixed acid gas,causing serious damage to the environment and human health.At present,the most widely used treatment technology for H_(2)S-containing mixed acid gas is the Claus process.Nevertheless,the Claus process is unable to achieve the recovery of hydrogen sources and the reduction of CO_(2)emissions,resulting in a considerable quantity of CO_(2)being discharged directly into the atmosphere,which has a detrimental impact on the global climate.Carbon,hydrogen,sulfur and other elements play an important role in the field of energy.Therefore,it is of great importance to explore new methods for the utilization of H_(2)S and CO_(2)mixed acid gas to save energy,protect the environment and achieve green and low-carbon development.A non-thermal plasma-catalysis method is used to convert H_(2)S and CO_(2)acid gas into syngas in a single step.This method achieves both the clean treatment of waste gas and its resource utilization,making it a novel route for syngas preparation.The non-thermal plasma contains high-energy electrons that can transfer energy to H_(2)S and CO_(2)molecules in the form of inelastic collisions,thereby exciting them into free radicals,ions,excited molecules and atoms.Concurrently,the catalyst filled in the discharge gap can facilitate the chemical reactions of these active species.However,the stable molecular structure of H_(2)S and CO_(2)presents a significant challenge to the improvement of energy efficiency,particularly in the context of high conversions of reactive molecule.The development of efficient catalysts is crucial to improve the H_(2)S and CO_(2)conversion.The existing results demonstrate that electrons,photons and strong electric field generated by non-thermal plasma can be used to excite MoS_(2)catalyst to generate highly active electron-hole pairs.These in turn catalyze the conversion of H_(2)S and CO_(2).This study used copper and zinc as pr
关 键 词:硫化氢 二氧化碳 合成气 改性MoS_(2)催化剂 低温等离子体
分 类 号:TQ110.9[化学工程—无机化工] X701.7[环境科学与工程—环境工程]
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