Effect of water content and storage conditions on the activity of PdCuFe-containing fibrous carbon catalyst for low-temperature CO oxidation

Q4 Chemistry Proceedings of the National Academy of Sciences of Belarus, Chemical Series Pub Date : 2023-03-05 DOI:10.29235/1561-8331-2023-59-1-7-17

S. G. Khaminets, S. V. Matveichuk, L. Tychinskaya

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Abstract

Effect of water content and storage conditions on the activity of carbon fiber supported palladium-copper-iron containing catalyst was studied. Physical-chemical properties of catalytic system were examined by means of XRD, XPS, SEM and GCh. The optimal water content in the catalyst, which ensures the most effective air purification both at low (0,03 vol.%) and high (0,5 vol.%) CO concentrations in the air and high humidity (70 %) of gas mixture, was determined.Activity loss of the catalytic system after storage under air conditions (1 month) was attributed to the accumulation of the excess amount of water in the catalyst and reorganization of its the active phase – decrease in the palladium content in the near-surface layer and segregation of the Сu2Cl(OH)3 atacamite phase. Catalyst drying in air at 110 оС leads to its complete reactivation. Hermetically sealed freshly as-prepared and dried at 50 оС after experiment samples retain the initial catalytic activity during long-term (more than a year) storage.

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含水量和贮存条件对含pdcufe纤维炭催化剂低温CO氧化活性的影响

研究了含水量和贮存条件对碳纤维负载的含钯铜铁催化剂活性的影响。采用XRD、XPS、SEM、GCh等手段对催化体系的理化性质进行了表征。在空气中CO浓度低(0.03 vol.%)和高(0.05 vol.%)以及混合气体湿度高(70%)的情况下，催化剂的最佳含水量均能保证最有效的空气净化效果。在空气条件下储存1个月后，催化体系的活性损失归因于催化剂中过量水分的积累和活性相的重组——近表层钯含量的降低和Сu2Cl(OH)3 atacamite相的分离。催化剂在110 оС的空气中干燥导致其完全再活化。密封新鲜制备和干燥50 оС实验后样品在长期(一年以上)储存中保持初始催化活性。

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来源期刊

Proceedings of the National Academy of Sciences of Belarus, Chemical Series Chemistry-Chemistry (miscellaneous)

CiteScore

0.30

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0.00%

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