Activated Biochar-Based Metal Catalysts for Steam Reforming of Pyrolysis Bio-Oil Model Compound

Proceedings of 1st International Electronic Conference on Catalysis Sciences Pub Date : 2020-11-09 DOI:10.3390/eccs2020-07536

C. Stasi, Marta Cortese, G. Greco, Belén González, V. Palma, J. Manyà

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引用次数: 1

Abstract

: In this work, different biochar-based metal catalysts were tested for mid-temperature (400 − 600 °C) acetic acid steam reforming. K, Co, Ce, Fe and Ni were chosen as active phases for the production of the studied catalysts. Their performance was evaluated in terms of acetic acid conversion, hydrogen yield, acetone yield, and stability. The best outcomes were obtained for the nickel-based catalysts, which exhibited high conversion (>90%) along with insignificant deactivation rates. Nevertheless, for relatively low nickel loadings, a certain extent of coke deposition was deduced from the observed fluctuations in pressure drop. A 10 wt.% nickel loading appeared to be a reasonable tradeoff between activity and coke production. After the identification of the optimal loading, four bimetallic catalysts were produced with the aim of improving the original activity of the nickel-based one. The cobalt–nickel catalysts showed the most stable behavior with a constant conversion degree (98%) in the range of 475–600 °C.

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活化生物炭基金属催化剂在热解生物油模型化合物蒸汽重整中的应用

在这项工作中，测试了不同的生物炭基金属催化剂在中温(400 - 600°C)乙酸蒸汽重整中的应用。选取K、Co、Ce、Fe和Ni为活性相制备催化剂。从乙酸转化率、产氢率、产丙酮率和稳定性等方面对其性能进行了评价。镍基催化剂的转化率高(>90%)，失活率不高，效果最好。然而，对于相对较低的镍负载，从观察到的压降波动可以推断出一定程度的焦炭沉积。10 wt.%的镍负荷似乎是活度和焦炭产量之间的合理权衡。在确定最佳负载后，生产了四种双金属催化剂，以提高镍基催化剂的原有活性。在475 ~ 600℃范围内，钴镍催化剂表现出最稳定的行为，转化率恒定(98%)。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Proceedings of 1st International Electronic Conference on Catalysis Sciences

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