A. Nikiforov, E. A. Chesnokov, I. A. Nikiforov, A. Popov, K. Maslakov
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引用次数: 1
摘要
在此过程中,合成了用于烯烃复分解的MoO3/Al2O3-F氟化催化剂。用各种物理化学方法对材料进行了表征,并在丙烯还原反应中进行了测试。研究表明,载体氟化导致表面羟基部分被F取代,这伴随着刘易斯酸位点和残余桥接OH基团强度的增加。将γ-Al2O3上的氟含量提高至3wt . %,可使丙烯的转化率提高1.5倍(WHSV = 1.1 h-1, Т = 100°С, r = 9 atm.),选择性大于95%。然而,当反应在常压下进行时,氟化样品的活性低于未促进的样品。研究结果表明,载体酸度在丙烯的合成过程中起着重要的作用。所提出的催化剂改性方法为改进经典复分解催化剂开辟了新的可能性。
Effect of the MoO 3/Al2O3 catalyst fluorination on the propylene metathesis reaction
In the course of this work, fluorinated catalysts MoO3/Al2O3-F for the olefins metathesis have been synthesized. The materials have been characterized by various physicochemical methods and tested in the propylene metathesis reaction. It has been shown that the support fluorination leads to partial replacement of surface hydroxyl groups by F, which is accompanied by an increase in the strength of both Lewis acid sites and residual bridging OH groups. Increasing the fluorine content on γ-Al2O3 up to 3 wt. % leads to an increase in the conversion of propylene in the metathesis reaction by 1.5 times (WHSV = 1.1 h-1, Т = 100 °С, р = 9 atm.) with a selectivity of more than 95%. However, when the reaction is carried out at atmospheric pressure, fluorinated samples show lower activity than unpromoted ones. The results of this work show that the support acidity plays an important role in propylene metathesis. The proposed method of catalyst modification opens up new possibilities for improving classical metathesis catalysts.
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