Conversion of Methane to Methanol with Co-Generation of Electricity from Palladium Catalysts Supported in Carbon

Revista Virtual de Química Pub Date : 2022-01-01 DOI:10.21577/1984-6835.20220101

Araceli J. Silva, Priscilla J. Zambiazi, Paulo V. R. Gomes, J. Nandenha, Camila M. Godoi, Rodrigo F. B. de Souza, Almir O. Neto, Nathália F. B. Azeredo

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引用次数: 1

Abstract

The application of solid electrolyte reactors for methane oxidation and energy co-generation is attractive, especially with the use of catalysts synthesized from noble metals such as palladium. In this work, we prepared three different compositions of palladium on carbon support to evaluate the composition that had the greatest potential for energy generation. Catalysts in the proportions of 5, 10 and 20% of Pd/C were tested for the conversion of greenhouse gases into organic molecules of higher added value using electrochemical fuel cell solid electrolyte reactors. The focus of this work was the conversion of methane into methanol, using the fuel cell as a reactor and the commercial Pd/C as electrocatalyst. The electrocatalysts were tested at the anode, analyzed by infrared (IR) spectroscopy and their activities verified by experiments with rotating ring disk electrode (RRDE). Higher levels of palladium (Pd/C 20%) favored obtaining electrical power, and the intermediate composition (Pd/C 10%) showed a greater production of less oxidized compounds, such as methanol, in addition to generating electricity. Palavras-chaves: Oxidação de metano; catalisadores de paládio; célula a combustível.

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碳负载钯催化剂热电联产甲烷制甲醇研究

固体电解质反应器在甲烷氧化和能源热电联产中的应用是有吸引力的，特别是使用钯等贵金属合成的催化剂。在这项工作中，我们在碳载体上制备了三种不同的钯成分，以评估具有最大能源潜力的成分。采用电化学燃料电池固体电解质反应器，测试了5、10和20% Pd/C比例的催化剂将温室气体转化为高附加值的有机分子。这项工作的重点是将甲烷转化为甲醇，使用燃料电池作为反应器，商用Pd/C作为电催化剂。对所制备的电催化剂进行了阳极测试、红外光谱分析和旋转环形圆盘电极(RRDE)实验。较高水平的钯(Pd/C 20%)有利于获得电力，中间成分(Pd/C 10%)除了发电外，还显示出更少氧化的化合物(如甲醇)的产量。Palavras-chaves: oxida o de metano;Catalisadores de paládio;canala combustível。

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Revista Virtual de Química

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