High-Pressure Hydrogenation: A Path to Efficient Methane Production from CO2

Methane Pub Date : 2024-01-15 DOI:10.3390/methane3010004
M. L. Gothe, Adolfo L. Figueredo, Laís R. Borges, Ruben Ramos, A. F. Peixoto, P. Vidinha
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Abstract

Methane has a rather relevant role in the “Power-to-Gas” concept, which is central in the current paradigm of climate change and renewable energies. Methane, the main component of natural gas, can be produced by catalytic hydrogenation reactions, particularly of CO2. A very effective catalyst in this reaction, hydrotalcite-derived nickel nanoparticles supported on alumina, Ni/Al2O3-HTC, can be employed in a high-pressure flow reactor to convert CO2 and H2 into CH4 at 100% selectivity and 84% conversion, whereas at atmospheric pressure, methane can be obtained with up to 90% selectivity. The high-pressure aspect also allows fast-paced production—over 5 m3·h−1·kgcat−1 of CH4 can be generated.
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高压氢化:从二氧化碳高效生产甲烷的途径
甲烷在 "电力转化为天然气 "的概念中扮演着相当重要的角色,而这一概念在当前的气候变化和可再生能源范式中处于核心地位。甲烷是天然气的主要成分,可以通过催化加氢反应生产,特别是二氧化碳的加氢反应。该反应中一种非常有效的催化剂--以氧化铝为载体的氢铝酸盐衍生镍纳米颗粒(Ni/Al2O3-HTC),可用于高压流动反应器,将 CO2 和 H2 转化为 CH4,选择性为 100%,转化率为 84%,而在常压下,甲烷的选择性可达 90%。高压还可实现快速生产--可产生超过 5 m3-h-1-kgcat-1 的 CH4。
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Methane
Methane
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