Shifts in Product Distribution in Microwave Plasma Methane Pyrolysis Due to Hydrogen and Nitrogen Addition

Methane Pub Date : 2022-11-15 DOI:10.3390/methane1040022

M. Wnukowski, J. Gerber, Karolina Mróz

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引用次数: 1

Abstract

Methane pyrolysis can produce many valuable products besides hydrogen, e.g., C2 compounds or carbon black. In the conditions provided by microwave plasma, the distribution of these products might be shifted by the addition of hydrogen and nitrogen. In this work, different ratios of H2:CH4, ranging from 0:1 to 4:1, were tested. The most unambiguous and promising result was obtained for the highest H2:CH4 ratio. For this ratio, a significant improvement in methane conversion rate was observed (from 72% to 95%) along with the increase in C2H2 and C2H4 yield and selectivity. The results support the hypothesis that the H radicals present in the plasma are responsible for improving methane conversion, while the presence of molecular hydrogen shifts the product distribution towards C2 compounds. Based on the carbon balance, the increase in the output of C2 compounds was obtained at the cost of solid carbon. At the same time, the addition of hydrogen resulted in the formation of bigger carbon particles. Finally, with the addition of both nitrogen and hydrogen, the formation of carbon was completely inhibited. Hydrogen cyanide was the main product formed instead of soot and some of the acetylene.

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微波等离子体甲烷热解过程中加氢和加氮产物分布的变化

甲烷热解可以产生除氢以外的许多有价值的产物，例如C2化合物或炭黑。在微波等离子体提供的条件下，添加氢气和氮气可能会改变这些产物的分布。在这项工作中，测试了H2∶CH4的不同比例，范围从0:1到4:1。对于最高的H2:CH4比率，获得了最明确和最有希望的结果。对于该比率，随着C2H2和C2H4产率和选择性的增加，观察到甲烷转化率显著提高（从72%提高到95%）。结果支持了这样一种假设，即等离子体中存在的H自由基负责提高甲烷转化率，而分子氢的存在使产物分布向C2化合物转移。基于碳平衡，C2化合物产量的增加是以固体碳为代价的。同时，氢的加入导致了更大的碳颗粒的形成。最后，通过添加氮气和氢气，碳的形成被完全抑制。氰化氢是形成的主要产物，而不是烟灰和一些乙炔。

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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Methane

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