双电离源飞行时间质谱用于峰峰煤原位热解挥发分的表征

In-situ characterization of volatiles from pyrolysis of Fengfeng coal by a double ionization time-of-flight mass spectrometer

  • 摘要: 利用自行搭建的原位热解-双电离源-飞行时间质谱(Py-EI/PI-TOFMS)对河北峰峰(FF)煤的热解行为,特别是含杂原子化合物的逸出特性进行研究。通过半定量分析获得产物的相对含量,通过对选定产物信号进行扫描获得其离子流强度随温度的变化曲线,同时利用电子轰击分析了H2O、CO、CO2、H2和CH4五种小分子气体产物的逸出规律。结果表明,该原位热解-飞行时间质谱系统很好地实现了煤热解过程中初级产物的原位检测与表征。对占检测到的挥发分约70%的质荷比小于240的热解产物的相对含量分布进行分析发现,烃类产物以1至3环芳烃为主;酚类化合物以含1至3个苯环的酚为主,其中,含3个苯环的酚类化合物含量明显高于含1至2个苯环的;含相同烷基取代基的酚类化合物的最大逸出温度随苯环数的增加向低温移动。热解挥发分中含氮/硫化合物的相对含量均小于1.0%,硫杂环化合物的含量高于吡咯/吡啶类化合物。

     

    Abstract: Coal from Fengfeng (FF) colliery, Hebei, China, was pyrolyzed in a self-developed pyrolysis reactor coupled with double ionization sources (viz., electron impact ionization (EI) and photoionization (PI)) and time-of-flight mass spectrometer (Py-EI/PI-TOFMS), to characterize in-situ the primary products from pyrolysis (heteroatom-containing compounds in particular). The relative contents of various pyrolysis products were obtained by semi-quantitative analysis and the temperature-evolved profile of each product was obtained by scanning the signal of the distinguished peak with the lapse of time; in addition, the evolution of five small molecule gaseous products (viz., H2O, CO, CO2, H2 and CH4) was analyzed by EI-TOFMS. The results indicate that the Py-PI-TOFMS system is able to detect and characterize the primary products in-situ during coal pyrolysis. In the pyrolysis products with a mass-to-charge ratio (m/z) less than 240, which account for about 70% of detected volatiles, hydrocarbons consist of mainly aromatics of 1–3 rings, whereas the phenolic compounds are dominated by phenols containing 1–3 benzene rings (especially the 3-ring phenols). The peak temperature with maximum evolution of phenols containing the same alkyl substituents shifts to lower temperature with the increase of the number of aromatic rings. In addition, the relative contents of nitrogen/sulfur-containing compounds are all less than 1.0%, where the content of sulfur-containing heterocyclic compounds is higher than that of nitrogen-containing heterocyclic compounds.

     

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