References
- Arias, M., D. Laurenti, C. Geantet, M. Vrinat, I. Hideyuki, and Y. Yoshimura. 2008. Gasoline desulfurization by catalytic alkylation over silica-supported heteropolyacids: From model reaction to real feed conversion. Catalysis Today 130 (1):190–4.
- Bonhote, P., A. Dias, N. Papageorgiou, K. Kalyanasundaram, and M. Grätzel. 1996. Hydrophobic, highly conductive ambient-temperature molten salts. Inorganic Chemistry 35 (5):1168–78.
- Chen, N., W. Zhang, G. Mi, and K. Hou. 2006. Evaluation of extraction performance of the solvents for FCC gasoline deep desulfurization. Industrial & Engineering Chemistry Research 25 (11):1345–48.
- Eßer, J., P. Wasserscheid, and A. Jess. 2004. Deep desulfurization of oil refinery streams by extraction with ionic liquids. Green Chemistry 6 (7):316–22.
- Holbrey, J. D., W. M. Reichert, M. Nieuwenhuyzen, O. Sheppard, C. Hardacre, and R. D. Rogers. 2003. Liquid clathrate formation in ionic liquid–aromatic mixtures. Chemical Communications 4 (4):476–477.
- Javadli, R., and A. de Klerk. 2012. Desulfurization of heavy oil. Applied Petrochemical Research 1 (1-4):3–19.
- Jiang, W., W. Zhu, H. Li, X. Wang, S. Yin, Y. Chang, and H. Li. 2015. Temperature-responsive ionic liquid extraction and separation of the aromatic sulfur compounds. Fuel 140:590–6.
- Otsuki, S., T. Nonaka, Q. Weihua, and A. Ishihara. 2001. Oxidative desulfurization of middle distillate. Journal of the Japan Petroleum Institute 44 (1):18–24.
- Shiraishi, Y., K. Tachibana, T. Hirai, and I. Komasawa. 2002. Desulfurization and denitrogenation process for light oils based on chemical oxidation followed by liquid− liquid extraction. Industrial & Engineering Chemistry Research 41 (17):4362–75.
- Song, C. 2003. An overview of new approaches to deep desulfurization for ultra-clean gasoline, diesel fuel and jet fuel. Catalysis. Today 86 (1):211–63.
- Speight, J. G. 2005. Lange's handbook of chemistry. Vol. 1. New York: McGraw-Hill.
- Sughrue, E. L., G. P. Khare, B. J. Bertus, and M. M. Johnson. 2001. Desulfurization and novel sorbents for same. U.S. Patent 6,254,766, Washington, DC: U.S. Patent and Trademark Office.
- Wang, J., D. Zhao, E. Zhou, and D. Zhi. 2007. Desulfurization of gasoline by extraction with N-alkyl-pyridinium-based ionic liquids. Journal of Fuel Chemistry and Technology 35 (3):293–6.
- Wang, X., J. Luo, X. Li, and W. Xu. 2010. Study on extractive desulfurization of model and FCC gasoline by N-formylmorpholine. Journal Hebei University of Technology 39 (3):32–6.
- Xing, D., X. Li, C. Li, and Y. Hu. 2014. Oxidation-extraction desulfurization by pyridinium-based ionic liquid. Journal Liaoning Shihua University 34 (2):21–3.
- Zhang, J., X. Pu, and S. Zhu. 2008. Study on the extraction performance of new ionic liquid for removing benzothiophene and dibenzothiophene. Petroleum Processing and Petrochemical 39 (2):38.
- Zhang, W. 2009. The study of extractive distillation deep desulfurization process for FCC gasoline. Tianjin: Hebei University of Technology.
- Zhao, D., Y. Wang, E. Duan, and J. Zhang. 2010. Extraction-oxidation desulfurization of fuel with pyridinium-based ionic liquid. Chemical Journal of Chinese Universities. 2010 31(3):488–91.