Selective deoxygenation of lignite with microwave torrefaction and its action mechanisms on pyrolysis process

IF 7.5 1区工程技术 Q2 ENERGY & FUELS

Fuel Pub Date : 2025-10-07 DOI:10.1016/j.fuel.2025.137082

Wei He , Bin Tian , Shuolin Wang , Long Xu , Xiaoxun Ma , Xingbao Wang

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Abstract

Thermal torrefaction is an important tool for lignite deoxygenation, but traditional thermal torrefaction either causes an obvious loss of aliphatic structures. This work proposed a novel approach to selectively remove oxygenated functional groups of lignite by microwave torrefaction. The fuel properties, changes of chemical structure, and the pyrolysis processes of Zhaotong lignite (ZTL) during torrefaction were investigated coupled with quantitative analysis and pyrolysis experiments for revealing the role of microwave torrefaction. It was found that the deoxygenation of microwave torrefaction was superior to traditional furnace torrefaction, especially for C=O and COO. Microwave torrefaction was not expected to destroy the alkyl side chains, but had the positive role of activating and relaxing the compact structures of ZTL. The CH₂/CH₃ ratio for ZTL increased from 3.390 to 4.167 during microwave torrefaction so that the torrefied lignite was more prone to decompose. Besides, all oxygen containing gases in the pyrolysis of ZTL before 400 °C were reduced after torrefaction, while hydrocarbon gases increased. The increased activated energy of ZTL during torrefaction confirmed that the strong bonds in ZTL were not influenced by torrefaction. Phenolic compounds and hydrocarbon moieties in the volatile of ZTL have increased significantly after microwave torrefaction, while the groups of ethers/alcohols and ketones/aldehydes were all decreased in this process. These results are expected to give better understand about pyrolysis mechanisms of lignite pretreated by microwave torrefaction.

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微波焙烧褐煤选择性脱氧及其对热解过程的影响机理

热焙烧是褐煤脱氧的重要手段，但传统的热焙烧会导致褐煤脂肪族结构的明显损失。本研究提出了一种微波焙烧法选择性去除褐煤含氧官能团的新方法。通过定量分析和热解实验，研究了昭通褐煤（ZTL）在热解过程中的燃料性质、化学结构变化和热解过程，揭示了微波热解的作用。结果表明，微波焙烧的脱氧效果优于传统炉焙烧，特别是对C=O和COO的脱氧效果更好。微波加热不会破坏烷基侧链，但对活化和松弛ZTL的致密结构有积极作用。微波焙烧过程中，ZTL的CH2/CH3比值由3.390增加到4.167，使焙烧后的褐煤更容易分解。400℃前ZTL热解过程中含氧气体经过焙烧后全部减少，烃类气体增加。升温过程中ZTL的活化能增加，证实了ZTL的强键不受升温的影响。微波焙烧后，ZTL挥发物中酚类化合物和碳氢化合物基团明显增加，醚/醇基团和酮/醛基团均减少。这些结果将有助于更好地理解微波焙烧预处理褐煤的热解机理。

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来源期刊

Fuel 工程技术-工程：化工

CiteScore

12.80

自引率

20.30%

发文量

3506

审稿时长

64 days

期刊介绍： The exploration of energy sources remains a critical matter of study. For the past nine decades, fuel has consistently held the forefront in primary research efforts within the field of energy science. This area of investigation encompasses a wide range of subjects, with a particular emphasis on emerging concerns like environmental factors and pollution.