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Article Dans Une Revue Energy & Fuels Année : 2024

Experimental Detection of Oxygenated Aromatics in an Anisole Blended Flame

Résumé

Anisole serves as a pivotal constituent in the model for lignin-derived biofuels. Despite the considerable interest in these biofuels, their combustion processes have the potential to increase the formation of aromatic compounds, particularly oxygenated aromatics. These oxygen-containing aromatics, known for their increased toxicity compared to conventional aromatics, can significantly impact the characteristics of soot particles and exhaust gas emissions. Recent research efforts have delved into the formation of oxygenated aromatics during combustion. However, the understanding of the kinetics governing the production of these aromatics remains limited, primarily due to a scarcity of experimental data for their identification. This study addresses this gap by investigating a fuel-rich hydrocarbon flame enriched with 10% anisole at an equivalence ratio of 1.90 and atmospheric pressure. Chemical products sampled from the flame underwent analysis using 1D and 2D Gas Chromatography-Mass Spectrometry setups. The results facilitated the separation and identification of over 100 aromatic species, encompassing approximately 80 oxygenated variants with diverse functional groups such as alcohols, ethers, carbonyls (aldehydes, ketones), and esters. The molecular weights of these species ranged from 94 (phenol) to 224 (9-fluorenyl acetate). Surprisingly, only a fraction of the identified species has been considered in existing literature models. Notably, alcohol and ether functional groups emerged as the most prevalent among the detected aromatics, hinting at their crucial roles in the reaction mechanisms involving anisole. The dominant reaction paths are identified and discussed in detail, offering valuable insights for future enhancements of kinetic models pertaining to "lignin-based biofuel and oxygenated aromatics”.
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Dates et versions

hal-04513669 , version 1 (20-03-2024)

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Kanika Sood, Sylvie Gosselin, Seifali Mehrdad, Nathalie de Coensel, Juan- Carlos Lizardo-Huerta, et al.. Experimental Detection of Oxygenated Aromatics in an Anisole Blended Flame. Energy & Fuels, 2024, ⟨10.1021/acs.energyfuels.3c04800⟩. ⟨hal-04513669⟩

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