低压预混苯/氧火焰中的富勒烯和多环芳烃

William J. Grieco , Arthur L. Lafleur , Kathleen C. Swallow , Henning Richter , Koli Taghizadeh , Jack B. Howard
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引用次数: 47

摘要

富勒烯的形成是一个分子量增长过程,类似于火焰中多环芳烃(PAH)和烟灰的形成,尽管对所涉及的具体机制知之甚少。本研究的目的是研究富勒烯可能的形成途径。这项工作测量了富勒烯C60、C70、C76、C78和C84、PAHs(高达300amu)和未识别的PAHs在以下条件下运行的重富勒烯形成预混苯/氧火焰中的首次浓度分布:燃料当量比,2.4(原子C/O比,0.96):冷气体速度,25cm/s:压力,5.33kPa:燃料混合物中的氩的分数为10mol%。在这个火焰中发现了富勒烯形成的两个区域。第一个形成区域发生在火焰的早期,同时PAH消耗。PAH的消耗速率足够大,足以解释观察到的富勒烯形成速率,因此该形成区域可能涉及PAH的反应。第二个区域占火焰中产生的富勒烯质量的大部分,出现在火焰的后期,与富勒烯前体中逐步加入乙炔更一致。在这两个区域中,观察到富勒烯的消耗可能涉及富勒烯和烟灰之间的反应。此外,测量结果表明,不同的PAHs大致同时生长,达到峰值浓度,并在消耗过程中一起衰减,这与火焰早期烟灰质量浓度的快速上升同时发生。这种行为与PAH形成的主要烟灰一致,并且与该火焰中形成的次要富勒烯一起发生。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Fullerenes and PAH in low-pressure premixed benzene/oxygen flames

The formation of fullerenes is though to be a molecular weight growth process similar to the formation of polycyclic aromatic hydrocarbon (PAH) and soot in flames, although little is known about the specific mechanisms involved. The goal of this study is to investigate possible fullerences formation pathways. This work measures for the First time concentration profiles of fullerences C60, C70, C76, C78, and C84, PAHs (up to 300 amu), and unidentified PAHs in the mass range between PAHs and soot in a heavily fullerene-forming premixed benzene/oxygen flame operated at the following conditions: fuel equivalence ratio, 2.4 (atomic C/O ratio, 0.96): cold gas velocity, 25 cm/s: pressure, 5.33 kPa: and fraction of argon in fuel mixture, 10 mol%. Two regions of fullerenes formation are identified in this flame. The First formation region occurs early in the flame simultaneously with PAH consumption. The rate of PAH consumption is more than large enough to account for the obsered rate of fullerenes formation, so this formation region may involve reactions of PAH. The Second region, which accounts for most of the fullerenes mass produced in the flame, occurs later in the flame and is more consistent with stepwise acetylene addtion to fullerene precursors. In both regions, fullerenes consumption that may involve reactions between fullerenes and soot is observed. In addition, measurements indicate that the different PAHs grow roughly simultaneously, reach a peak concentration, and decay together in a consumption process that occurs at the same time as a rapid rise in soot mass concentration early in the flame. This behavior is consistent with the major soot formation being from PAH and occurring along with the minor fullerenes formation in this flame.

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