镉对Co3O4尖晶石N2O直接分解的促进作用

B. M. Abu-Zied, S. Soliman, S. E. Abdellah
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引用次数: 0

摘要

对环境保护的日益关注促使人们更努力地开发新的催化剂,以促进温室气体的排放。一氧化二氮是一种强大的温室气体。文献综述表明,目前已开发出多种用于N2O直接分解的催化剂。特别注意的是钴基尖晶石氧化物。然而,关于镉促进尖晶石在N2O沉淀中的性能,目前还缺乏相关的研究。本文研究了一种新型Cd-Co催化剂对氧化亚氮的直接分解。采用共沉淀法制备了Cd/(Cd + Co)比为0.00 ~ 0.333的催化剂,并在500℃下进行了煅烧。采用TGA-DTA, XRD, FTIR, N2吸附/解吸和原子吸收分光光度法对这些催化剂进行了表征。相分析表明,CdO与Co3O4之间不存在固态相互作用。然而,Cd/(Cd + Co)比值的增加与N2O分解活性的持续增强有关。活性与催化剂氧化还原对的存在有关。此外,还讨论了Cd的存在对提高活性的作用。最后,研究了煅烧温度的升高对活性性能的影响。镉的存在对Co3O4的N2O分解性能有积极影响。在0.083 ~ 0.333范围内,随着Cd/(Cd + Co)比值的增加,活性持续增加。
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Role of Cadmium Addition in Promoting the Direct N2O Decomposition of Co3O4 Spinel
Increased environmental protection concerns urge more effort to develop new catalysts for the abetment of greenhouse gases. N2O is known as a powerful greenhouse gas. The literature review revealed that various catalysts have been developed for the direct decomposition of N2O. Special attention was given to the cobalt-based spinel oxides. However, there is a lack of information about the performance of the cadmium promoted spinels for N2O abetment. This paper addresses the nitrous oxide direct decomposition over a novel series of Cd- Co catalysts. These catalysts, with Cd/(Cd + Co) ratios 0.00-0.333, were prepared with the aid of the co-precipitation route, which is followed by calcination at 500 °C. Characterization of these catalysts was performed employing TGA-DTA, XRD, FTIR, N2 adsorption/desorption, and atomic absorption spectrophotometry. Phase analysis revealed the absence of a solid-state interaction between CdO and Co3O4. However, it was found that increasing the Cd/(Cd + Co) ratio is associated with continuous enhancement of the N2O decomposition activity. The activity was correlated with the presence of catalyst’s redox couples. Moreover, the role of the Cd presence in improving the activity was discussed. Finally, the activity performance change accompanying the calcination temperature raise was also investigated. Presence of cadmium has a positive effect on the N2O decomposition performance of Co3O4. Activity increased continuously with Cd/(Cd + Co) ratio increase over the examined range 0.083–0.333 structural, textural, and electronic roles of cadmium were proposed.
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