Noble Metals-Based Catalysts for Hydrogen Production via Bioethanol Reforming in A Fluidized Bed Reactor

Proceedings of 1st International Electronic Conference on Catalysis Sciences Pub Date : 2020-11-09 DOI:10.3390/eccs2020-07543

Concetta Ruocco, V. Palma, Marta Cortese, M. Martino

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引用次数: 1

Abstract

: In this work, Pt-Ni/CeO 2 -SiO 2, as well as Ru-Ni/CeO 2 -SiO 2 catalysts, were obtained at different loadings of the noble metal (in the interval 0–3 wt%) and tested for oxidative steam reforming of ethanol. Stability performance was evaluated at 500 °C for 25 h under a steam to ethanol ratio of 4 and an oxygen to ethanol ratio of 0.5. The weight hourly space velocity was fixed to 60 h − 1 , which is considerably higher than the typical values selected for such processes. All the catalysts deactivated with time-on-stream, due to the severe operative conditions selected. However, the highest ethanol conversion (above 95%) and hydrogen yield (30%) at the end of the test were recorded over the 2 wt%Pt-10 wt%Ni/CeO 2 -SiO 2 catalyst, which also displayed a limited carbon formation rate (1.5 × 10 − 6 g coke ·g catalyst − 1 ·g carbon,fed − 1 ·h − 1 , reduced almost 5 times compared to the samples that had a Pt or Ru content of 0.5 wt%). Thus, the latter catalyst was identified as a promising candidate for future tests under real bioethanol mixture.

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基于贵金属的流化床生物乙醇重整制氢催化剂

在这项工作中，获得了Pt-Ni/ ceo2 - sio2催化剂，以及Ru-Ni/ ceo2 - sio2催化剂，在不同的贵金属负载(在0-3 wt%之间)，并对乙醇的氧化蒸汽重整进行了测试。在蒸汽与乙醇比为4、氧与乙醇比为0.5的条件下，在500°C下加热25 h，评估稳定性性能。重量每小时空间速度被固定为60 h−1，这比为这类过程选择的典型值要高得多。由于选择了严苛的操作条件，所有的催化剂都在连续时间内失活。然而，在测试结束时，最高的乙醇转化率(95%以上)和氢气收率(30%)是在2 wt%Pt-10 wt%Ni/ ceo2 - sio2催化剂上记录的，该催化剂也显示出有限的碳生成率(1.5 × 10 - 6 g焦炭·g催化剂-1·g碳，喂入-1·h -1，与Pt或Ru含量为0.5 wt%的样品相比，降低了近5倍)。因此，后一种催化剂被确定为未来在真实生物乙醇混合物下测试的有希望的候选者。

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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