1. Effect of steam addition on the structure and activity of Pt–Sn catalysts in propane dehydrogenation.
- Author
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Shan, Yuling, Sui, Zhijun, Zhu, Yian, Chen, De, and Zhou, Xinggui
- Subjects
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STEAM reforming , *CHEMICAL structure , *PLATINUM catalysts , *DEHYDRATION reactions , *PROPANE , *DEHYDROGENATION - Abstract
To investigate the role of steam on the structure and activities of platinum-based catalyst, a tin modified Pt/γ-Al 2 O 3 catalyst was prepared for propane dehydrogenation in the presence of steam. The propane conversion could be prominently elevated by nearly twofolds with only 1.0% loss of selectivity to propene when an optimum amount of H 2 O was added. The retarding effects of steam on the activities are also observed at higher H 2 O/C 3 H 8 molar ratios (>1). Kinetic studies results show that the apparent activation energies for steam dehydrogenations are lower than those without steam addition. The fresh, spent and steam pretreated catalysts were characterized by TG, Raman, H 2 -chem, HAADF-STEM, XPS and CO adsorption FT-IR (CO-FTIR). It is observed that the platinum particles sizes are smaller in the samples subjected to certain period of steam pretreatment. The changes of platinum dispersion in steam conditions are related to the changes of tin oxidation states and the segregation of platinum from Pt–Sn alloys, as revealed by CO-FTIR and XPS results. More accessible Pt sites that are generated in the steam due to the phase transformation of Pt–Sn catalyst as well as the removal of coke accumulated on the catalyst surface would account for the increase of catalytic activities and the decrease of activation energies in steam atmosphere. Competitive adsorption of H 2 O and other reagent over Pt sites would lead to the retarding effects of steam on the activities at high H 2 O partial pressure. [ABSTRACT FROM AUTHOR]
- Published
- 2015
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