Journal
JOURNAL OF ANALYTICAL AND APPLIED PYROLYSIS
Volume 176, Issue -, Pages -Publisher
ELSEVIER
DOI: 10.1016/j.jaap.2023.106273
Keywords
Mesophase pitch; Catalytic polycondensation; Narrow fractions
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The boron trifluoride complex catalyst effectively promotes the development of anisotropic structures in different fractions of FCC decant oil. The heavy fraction mainly consists of 4 and 5 ring aromatics with short side chains and methylene-bridged bonds, while the middle fraction contains 3 and 4 ring aromatics with naphthenic structures. The light fraction is dominated by 1 to 3 ring aromatics with long alkyl side chains. The catalyst shows excellent catalytic activity for the heavy fraction and slightly facilitates the development of anisotropic structures in the middle fraction.
The boron trifluoride complex catalyst can effectively facilitate the development of anisotropic structures in FCC decant oil (FCC-DO) through cationic polymerization reaction. However, the fractions of FCC-DO with different boiling points possess different molecular compositions and aromatic nuclei configurations. In this study, FCC-DO is separated into light fraction, middle fraction, and heavy fraction by vacuum distillation. The different carbonization reaction pathways and reactivity were systematically investigated for three narrow fractions with no or 5 wt% addition of boron trifluoride complex catalyst. The results show that the heavy fraction is dominated by 4 and 5 plus ring aromatics with short side chains and methylene-bridged bonds. The catalyst showed excellent catalytic activity for the heavy fraction, the resulting product (MP-HF-5) possessing a softening point of 307 degrees C and 3.06 wt% methylene-bridged hydrogen at 95.3 wt% mesophase content. However, the catalyst slightly facilitated the development of anisotropic structures in the middle fraction (rich in 3 and 4 rings aromatics with naphthenic structures), which provided mesogen molecules during the FCC-DO carbonization reaction. Finally, the 1 similar to 3 ring aromatics with long alkyl side chains are mainly present in the light fractions. The catalyst did not show obvious catalytic activity for the light fraction, in contrast, the oxygen-containing functional groups in the catalyst reacted with the aromatic molecule to form a disordered oxidative cross-linked structure, resulting in an almost completely isotropic structure of MP-LF-5.
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