This study explores green and low-viscosity deep eutectic solvents(DESs) for the efficient extraction of quinoline(QUI) from wash oil.The hydrogen bond donors and acceptors constituting DESs were initially screened ba...This study explores green and low-viscosity deep eutectic solvents(DESs) for the efficient extraction of quinoline(QUI) from wash oil.The hydrogen bond donors and acceptors constituting DESs were initially screened based on thermodynamic properties predicted by the conductor-like screening model for real solvents(COSMO-RS),followed by further selection considering the viscosity and cost of the formed DESs.Phase equilibrium experiments showed that the DES composed of triethylmethylammonium chloride and formic acid exhibited the best extraction performance among the selected candidates.Key extraction parameters were optimized experimentally,achieving a maximum QUI extraction efficiency of 97.18% under mild conditions.Molecular dynamics simulations revealed that the interactions between quaternary ammonium cations and QUI play a crucial role in the extraction mechanism.This study provides insights into the use of DESs for QUI extraction and demonstrates their potential for application to other coal tar derivatives.展开更多
基金financially supported by the Natural Science Foundation of Shanxi Province (20210302123167)National Key Research and Development Program (2022YFC3902505)。
文摘This study explores green and low-viscosity deep eutectic solvents(DESs) for the efficient extraction of quinoline(QUI) from wash oil.The hydrogen bond donors and acceptors constituting DESs were initially screened based on thermodynamic properties predicted by the conductor-like screening model for real solvents(COSMO-RS),followed by further selection considering the viscosity and cost of the formed DESs.Phase equilibrium experiments showed that the DES composed of triethylmethylammonium chloride and formic acid exhibited the best extraction performance among the selected candidates.Key extraction parameters were optimized experimentally,achieving a maximum QUI extraction efficiency of 97.18% under mild conditions.Molecular dynamics simulations revealed that the interactions between quaternary ammonium cations and QUI play a crucial role in the extraction mechanism.This study provides insights into the use of DESs for QUI extraction and demonstrates their potential for application to other coal tar derivatives.
