甲烷与二氧化碳、水和氧重整的热力学平衡研究

Journal of Clean Energy Technologies Pub Date : 2018-07-01 DOI:10.18178/JOCET.2018.6.4.480

D. Minh, Thanh Son Phan, D. Grouse, A. Nzihou

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引用次数: 7

摘要

-废物和生物质增值可通过生物降解过程实现。由此产生的沼气可以通过重整过程转化为液体燃料或化学品。本文旨在利用FactSage软件(6.3)研究常压下不同氧化剂(co2、h2o和o2)下甲烷重整的热力学平衡。版本)。在任何情况下，反应温度都起着至关重要的作用。在合成气(h2和CO)中，只有在750℃以上才能获得高甲烷转化率和高选择性。过量的氧化剂也需要限制固体碳的形成。考虑到沼气中ch4的含量通常高于CO 2，建议在沼气重整介质中加入蒸汽，以获得较高的甲烷转化率，提高h2 /CO的摩尔比，有利于液体燃料或费托合成、甲醇合成或制氢等化工生产。

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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Thermodynamic Equilibrium Study of Methane Reforming with Carbon Dioxide, Water and Oxygen

— Waste and biomass valorization can be achieved by biological degradation processes. The resulting biogas can be transformed into liquid fuels or chemicals via reforming processes. This paper aims to study the thermodynamic equilibrium of methane reforming with different oxidants: CO 2 , H 2 O, and O 2 at atmospheric pressure using FactSage software (6.3. version). The reaction temperature plays crucial role in all cases. High methane conversion together with high selectivity in syngas (H 2 and CO) can be only obtained above 750°C. An excess in oxidants is also required to limit the formation of solid carbon. Taking into account the fact that biogas usually contains more CH 4 than CO 2 , steam addition to biogas reforming medium is recommended to get high methane conversion and to increase the molar ratio of H 2 /CO, which is favorable for liquid fuels or chemical production via Fisher-Tropsch synthesis, methanol synthesis or hydrogen production.

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Journal of Clean Energy Technologies

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