Deciphering the intermolecular interactions for separating bicyclic and tricyclic aromatics via different naphthalene-based solvents

IF 4.3 3区 工程技术 Q2 ENGINEERING, CHEMICAL Frontiers of Chemical Science and Engineering Pub Date : 2024-06-13 DOI:10.1007/s11705-024-2462-9
Pengzhi Bei, Antony Rajendran, Jie Feng, Wen-Ying Li
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Abstract

The traditional separation of bicyclic and tricyclic aromatics from coal tar involves complicated multi-steps and consumes significantly more energy. Previous work accomplished the separation between anthracene-phenanthrene isomers using electrostatic interaction, but for the separation between bicyclic and tricyclic aromatics, electrostatic interactions are difficult to produce a recognizable effect. Naphthalene-based solvents, named as naphthaleneacetamide, naphthaleneethanol, naphthalenemethanol, naphthol, naphthylacetic acid, naphthylacetonitrile, and naphthylamine, respectively, were used for the efficient separation of naphthalene and phenanthrene via dispersion interaction. Results showed that the pre-studied structural parameters are the key factors in selecting an efficient solvent. And the substituents on the intermolecular interactions involved in the separation processes had an important impact, which were evaluated. Naphthalenemethanol exhibited a superior performance with a purity of 96.3 wt % naphthalene products because its electron-donating substituent enables the selective recognition of naphthalene via the dispersion interaction. The used naphthalene-based solvents can be regenerated and recycled via back extraction with a purity of over 90 wt % naphthalene products, suggesting solvent structural stability during the regeneration processes. Notably, the naphthalene-based solvents also demonstrated better separation performance for polycyclic aromatics from coal tar with a purity of over 80 wt % for bicyclic aromatics. This study would enhance the utilization of coal tar as a valuable source of polycyclic aromatics besides broadening the knowledge for applying non-bonded interaction in the separation of polycyclic aromatics technologies.

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解密分子间相互作用,通过不同的萘基溶剂分离双环和三环芳烃
从煤焦油中分离双环和三环芳烃的传统方法涉及复杂的多道工序,且能耗显著增加。之前的研究利用静电作用完成了蒽-菲异构体之间的分离,但对于双环和三环芳烃的分离,静电作用很难产生明显的效果。为了通过分散作用高效分离萘和菲,我们使用了萘基溶剂,分别命名为萘乙酰胺、萘乙醇、萘甲醇、萘酚、萘乙酸、萘乙腈和萘胺。结果表明,预先研究的结构参数是选择高效溶剂的关键因素。而取代基对分离过程中涉及的分子间相互作用有重要影响,对此进行了评估。萘甲醇表现出卓越的性能,萘产品的纯度达到 96.3 wt %,这是因为其电子供体取代基能够通过分散作用选择性地识别萘。使用过的萘基溶剂可通过反萃取进行再生和循环,萘产物的纯度超过 90 wt %,这表明在再生过程中溶剂结构稳定。值得注意的是,萘基溶剂还能更好地分离煤焦油中的多环芳烃,双环芳烃的纯度超过 80 wt %。这项研究不仅拓宽了在多环芳烃分离技术中应用非键作用的知识,还将提高煤焦油作为多环芳烃宝贵来源的利用率。
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来源期刊
CiteScore
7.60
自引率
6.70%
发文量
868
审稿时长
1 months
期刊介绍: Frontiers of Chemical Science and Engineering presents the latest developments in chemical science and engineering, emphasizing emerging and multidisciplinary fields and international trends in research and development. The journal promotes communication and exchange between scientists all over the world. The contents include original reviews, research papers and short communications. Coverage includes catalysis and reaction engineering, clean energy, functional material, nanotechnology and nanoscience, biomaterials and biotechnology, particle technology and multiphase processing, separation science and technology, sustainable technologies and green processing.
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