CIESC Journal ›› 2019, Vol. 70 ›› Issue (11): 4268-4277.DOI: 10.11949/j.issn.0438-1157.20190569

• Catalysis, kinetics and reactors • Previous Articles     Next Articles

Study on ethane dehydrogenation over PtSn-Mg(Zn)AlO catalyst

Xiaoping WU(),Chenguang WANG(),Qi ZHANG,Qiying LIU,Xinghua ZHANG,Longlong MA   

  1. Key Laboratory of Renewable Energy, Guangzhou Institute of Energy Conversion, Chinese Academy of Sciences, Guangzhou 510640, Guangdong, China
  • Received:2019-05-27 Revised:2019-08-09 Online:2019-11-05 Published:2019-11-05
  • Contact: Chenguang WANG

PtSn-Mg(Zn)AlO催化剂应用于乙烷脱氢反应研究

吴小平(),王晨光(),张琦,刘琪英,张兴华,马隆龙   

  1. 中国科学院广州能源研究所,中国科学院可再生能源与天然气水合物重点实验室,广东 广州 510640
  • 通讯作者: 王晨光
  • 作者简介:吴小平(1990—),男,博士,研究助理,wuxp@ms.giec.ac.cn
  • 基金资助:
    国家自然科学基金面上基金项目(51776206)

Abstract:

A series of PtSn-Mg(Zn)AlO catalysts with different Zn and Pt contents were synthesized by anion exchange method for ethane dehydrogenation. The experimental results show that the doping of a small amount of Zn in the hydrotalcite precursor has a significant effect on the performance of ethane dehydrogenation. When the Zn content is 2% (mass), the Pt-based catalyst exhibits the best performance with an initial ethane conversion of 27.1% and an average ethane conversion of 21.6% for a period of 2 h at 550℃. To study the effect of Zn doping on the performance of ethane dehydrogenation and the structure of catalyst, the prepared catalysts were characterized by XRD, BET, SEM and TEM. The BET and SEM results show that the PtSn-Mg(Zn)AlO catalyst has larger specific surface area than the PtSn-MgAlO catalyst. The TEM results show that the average diameter of the PtSn-Mg(Zn)AlO catalyst and the PtSn-MgAlO catalyst are (1.49 ± 0.31) nm and (2.0 ± 0.23) nm, respectively, which shows that the doping of Zn changes the structure of the catalyst to some extent, and better disperse Pt particles, thereby improving the catalyst reaction performance. Furthermore, the effect of temperature and Pt loading on the performance of ethane dehydrogenation were investigated. It was found that the ethane initial conversion was higher at higher temperatures, but the catalyst was more susceptible to deactivation. The effect of Pt loading on the dehydrogenation performance of ethane was investigated. It was found that increasing the Pt content did not increase the ethane conversion rate by a corresponding multiple, that is, increasing the Pt content reduced the utilization rate of Pt. Therefore, proper reduction of Pt content in Pt-based catalyst has far-reaching significance for studying the ethane dehydrogenation reaction.

Key words: chemical processes, Zn-modified, catalyst support, MgAl LDHs, catalyst, PtSn, ethane dehydrogenation

摘要:

采用阴离子交换法合成了一系列不同Zn和Pt含量的PtSn-Mg(Zn)AlO催化剂用于乙烷脱氢反应。实验结果表明,在水滑石载体中掺杂少量的Zn对乙烷脱氢反应有明显影响。当Zn含量为2%(质量)时Pt基催化剂活性性能最优,在550℃时乙烷初始转化率达到27.1%,2 h平均转化率为21.6%。BET和SEM结果表明PtSn-Mg(Zn)AlO催化剂比PtSn-MgAlO催化剂比表面积更大,TEM结果显示,PtSn-Mg(Zn)AlO催化剂和PtSn-MgAlO催化剂的金属颗粒的平均直径分别为(1.49±0.31)nm 和(2.0±0.23)nm,说明Zn的掺杂在一定程度上改变了催化剂的结构,能减小Pt颗粒的尺寸,更好地分散Pt颗粒,从而改善乙烷催化脱氢反应性能。此外,考察温度对乙烷脱氢反应性能影响,发现温度越高乙烷初始转化率越高,但催化剂越易失活;考察Pt负载量对乙烷脱氢反应性能的影响,发现增加Pt含量并不能使乙烷转化率得到相应倍数的增加,即增加Pt含量反而使Pt的利用率降低了,因此适量降低PtSn-Mg(2-Zn)AlO催化剂中Pt含量对研究乙烷脱氢反应有深远意义。

关键词: 化学过程, Zn改性, 催化剂载体, 镁铝水滑石, 催化剂, PtSn, 乙烷脱氢

CLC Number: