PtSnNa/AlSBA-15 catalysts with different amounts of Sn were prepared for propane dehydrogenation.The catalysts were characterized by XRF,BET,H2 chemisorption,NH3-TPD,H2-TPR,and TPO techniques.Test results indicated that the presence of tin not only modified the acid function and the interfacial character between metal and support,but also reduced the coke deposition effectively.Among these catalysts investigated thereby,the PtSn(0.7%)Na/AlSBA-15 catalyst had the best catalytic performance in terms of propane conversion and stability.With the continuous addition of Sn,more amounts of Sn0 species appeared,which was unfavorable to the reaction.The PtSn(0.7%)Na/AlSBA-15 catalyst was parametrically characterized in order to obtain necessary information to integrate the process operating conditions.A weight hourly space velocity of 3 h-1,a reaction temperature of 610 ℃ and a H2/C3H8 molar ratio of 0.25 were found to be optimum conditions for achieving a higher dehydrogenation activity of the catalyst. PtSnNa / AlSBA-15 catalysts with different amounts of Sn were prepared for propane dehydrogenation.The catalysts were characterized by XRF, BET, H2 chemisorption, NH3-TPD, H2-TPR, and TPO techniques.Test results indicating that the presence of tin not only modified the acid function and the interfacial character between metal and support, but also reduced the coke deposition effectively. Among these catalystsized thereby, the PtSn (0.7%) Na / AlSBA-15 catalyst had the best catalytic performance in terms of propane conversion and stability. The continuous addition of Sn, which was unfavorable to the reaction. PtSn (0.7%) Na / AlSBA-15 catalyst was parametrically characterized in order to obtain necessary information to integrate the process operating conditions. A weight hourly space velocity of 3 h-1, a reaction temperature of 610 ° C and a H2 / C3H8 molar ratio of 0.25 were found to be optimum conditions for achieving a higher dehydrogenation activity of t he catalyst.