吸附
气凝胶
化学
碳纤维
无机化学
天然气
核化学
环境化学
材料科学
物理化学
有机化学
纳米技术
复合数
复合材料
作者
Ting Liu,Zhuo Xiong,Shengnan Deng,Han Wu,Xianhong Wang,Yuhan Huang,Zizhen Ma,Yan Tan,Huawei Zhang
标识
DOI:10.1021/acs.est.4c09301
摘要
A collaborative COS conversion of Hg 0 in natural gas on the nitrogen-doped and copper oxide-supported carbon aerogel (0.9PPD-Cu/CA), which is synthesized by the p -phenylenediamine sources and carbon source of sodium alginate, was proposed to overcome the easy deactivation of the catalyst, high reaction temperature, and limited lifespan. At 40 °C, the 0.9PPD-Cu/CA presented a 100% COS conversion efficiency in the presence of H 2 O; meanwhile, the N doping realized the enhancement of basic density, leading to an improved COS conversion, and the intermediates H 2 S in the reaction were wholly adsorbed, implying that 0.9PPD-Cu/CA was a bifunctional carbon material. Furthermore, the Hg 0 addition achieved a synergistic performance as well as higher COS yield and a significant lifetime period, in which the sulfur immediate could have a high reactive activity for Hg 0 and the sulfate proportion would be alleviated as well. Subsequently, the catalyst poisoning would be alleviated after the protection of the collaborative process by strengthening the electron transfer, consuming the sulfur-based products, and accelerating the cleavage of the H–S bond. Finally, the synergetic mechanism on COS and Hg 0 on 0.9PPD-Cu/CA was concluded according to the experimental results and sample analysis. Additionally, the effects of space velocity and the regeneration performance were explored.
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