REFERENCES
- Debuisschert, Q., Nocca, J.L., and Jean-Paul, C. (2002). Prime-G+ TM: the key to FCC gasoline desulfurization. Proc. Interfaces 2002 Conf., Budapest 133–141.
- He, Y.G., Shu, X.T., and Long, J. (2007). Carbenium ions and relative reaction mechanism. Acta Pet. Sinica (Pet. Process. Sect.) 23:1–7.
- Kawai, T., Jiang, K.M, and Ishikawa, T. (1996). FT-IR and TPD studies of adsorbed pyridine on Re2O7/Al2O3 catalysts. J. Catal. 159:288–295.
- Lan, L., and Ju, Y. (2010). Development and commercial trial of DSO technology for FCC gasoline hydrodesulfurization. Pet. Process. Petrochem. 41:53–56.
- Lucas, A., Canizares, P., and Duran, A. (1997). Dealumination of HZSM 5 zeolites: Effect of steaming on acidity and aromatization activity. Appl. Catal. A: Gen. 154:221–240.
- Sahoo, S.K., Viswanadham, N., and Ray, N. (2001). Studies on acidity, activity and coke deactivation of ZSM-5 during n-heptane aromatization. Appl. Catal. A: Gen. 205:1–10.
- Williams, B. (2003). Refiner's future survival hinges on updating to changing feedstocks, product specs. Oil Gas 101:20–34.
- Yan, F., Bao, X.J., and Shi, G. (2004). Olefin reduction of FCC gasoline via hydroisomerization aromatization over modified HMOR/HZSM-5/Hβ composite carriers. Appl. Catal. A: Gen. 275:61–71.
- Yu, L.Q., and Li, X.W. (2000). Chemical adsorption and surface acid determination. Petrochem. Technol. 29:621–635.
- Zhang, P.Q., Guo, X.W., and Hongchen Guo, H.C. (2007). Study of the performance of modified nano-scale ZSM-5 zeolite on olefins reduction in FCC gasoline. J. Mol. Catal. A: Chem. 261:139–146.