Exploring ionic liquids for the extraction separation of aromatic hydrocarbons from diesel via multiple interaction analyses coupled with experimental evaluation
[Display omitted] •Screened [EMIM][TF2N] exhibits a selectivity of 95.73 for tetralin over n-decane.•[EMIM][TF2N] has remarkable stability and regeneration performance.•C-H···π and hydrogen bond interactions between solvents and PAHs were elucidated.•Using the seqVAE model, a new IL with high select...
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Veröffentlicht in: | Fuel (Guildford) 2024-07, Vol.368, p.131634, Article 131634 |
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Sprache: | eng |
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•Screened [EMIM][TF2N] exhibits a selectivity of 95.73 for tetralin over n-decane.•[EMIM][TF2N] has remarkable stability and regeneration performance.•C-H···π and hydrogen bond interactions between solvents and PAHs were elucidated.•Using the seqVAE model, a new IL with high selectivity and solvent capacity was generated.
The separation of aromatic hydrocarbons from petroleum fractions is of great significance for both the quality upgrading of products and value-added utilization of aromatic compounds. However, the separation of polycyclic aromatic hydrocarbons (PAHs) and their derivatives from diesel remains challenging because of their lower solubility and selectivity as compared to the monocyclic aromatic compounds. In this work, 1-ethyl-3-methylimidazolium bis(trifluoromethylsulfonyl)imide ([EMIM][TF2N]) was screened from 320 ionic liquid (IL) candidates through solvent capacity predication using COSMO-RS method. Liquid-liquid equilibrium experiments were carried out using a series of tetralin/n-decane mixtures with different tetralin concentrations to evaluate the extraction performance of several solvents. The results indicate that [EMIM][TF2N] has high selectivity up to 95.73 for tetralin over n-decane, which is 4.5 and 3.9 times higher than that of dimethyl sulfoxide and sulfolane. During five regeneration cycles, the [EMIM][TF2N] exhibits consistent extraction performance and nearly complete recovery. Molecular polarity index (MPI) analysis indicates that tetralin has larger dissolving affinity to solvents as compared to n-decane. Combined analyses of interaction energy, energy decomposition, and visualization of weak interaction reveal that the crucial role of weak hydrogen bond in dominating the complex solvent–solute interactions. Compared to n-decane, tetralin shows a stronger interaction with the solvents due to the existence of C-H···π and hydrogen bond interactions. The great difference in interaction energy between {[EMIM]+ + tetralin} and {[EMIM]+ + n-decane}, therefore, endows [EMIM][TF2N] with high selectivity for tetralin. Given the dominant role of cation, a IL, [CN1 = C2SCCS2(CC = C)C1][TF2N] having both high selectivity and high solvent capacity was subsequently explored using the cation generation method based on the SeqVAE model. Furthermore, present study proposes a strategy for the design of ILs for separation and other specific application circumstances. |
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ISSN: | 0016-2361 1873-7153 |
DOI: | 10.1016/j.fuel.2024.131634 |