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Hβ/Al-SBA-15介微孔复合分子筛负载Ni-W催化剂对萘加氢裂化制BTX的催化性能
引用本文:H&beta,/Al-SBA介微孔复合分子筛负载Ni-W催化剂对萘加氢裂化制BTX的催化性能. Hβ/Al-SBA-15介微孔复合分子筛负载Ni-W催化剂对萘加氢裂化制BTX的催化性能[J]. 燃料化学学报, 2017, 45(1): 93-99
作者姓名:H&beta  /Al-SBA介微孔复合分子筛负载Ni-W催化剂对萘加氢裂化制BTX的催化性能
作者单位:1. Laboratory of Applied Catalysis and Green Chemical Engineering, Institute of Coal Chemistry, Chinese Academy of Sciences, Taiyuan 030001, China;2. University of Chinese Academy of Sciences, Beijing 100049, China
基金项目:中国科学院战略性先导科技专项(XDA07020200)和中国科学院战略性先导科技专项(XDA07020400)资助
摘    要:采用后合成法制备Hβ/Al-SBA-15复合分子筛,利用XRD、N_2吸附、Py-IR、NH_3-TPD、SEM和TEM等手段进行表征。用浸渍法将Ni-W活性组分担载在Hβ/Al-SBA-15载体上,制备Ni-W/Hβ/Al-SBA-15催化剂,以萘为模型化合物,考察该催化剂的加氢裂化性能。结果表明,所合成的Hβ/Al-SBA-15复合分子筛既有介孔结构又有微孔结构,并同时具有B酸和L酸中心,酸性强于SBA-15。具有适度酸性位和介微孔结构的Ni-W/Hβ/Al-SBA-15催化剂,对萘加氢裂化具有较高的萘转化率和BTX选择性,分别为96%和61.1%。

关 键 词:介微孔材料    加氢裂化  BTX  Hβ/Al-SBA-15复合分子筛  Ni-W  
收稿时间:2016-09-30

Catalytic performance of Ni-W supported on micro-mesoporous Hβ/Al-SBA-15 composite molecular sieves in the hydrocracking of naphthalene to BTX
CHENG Jun-jie,LI Zhen-rong,ZHAO Liang-fu. Catalytic performance of Ni-W supported on micro-mesoporous Hβ/Al-SBA-15 composite molecular sieves in the hydrocracking of naphthalene to BTX[J]. Journal of Fuel Chemistry and Technology, 2017, 45(1): 93-99
Authors:CHENG Jun-jie  LI Zhen-rong  ZHAO Liang-fu
Abstract:Micro-mesoporous Hβ/Al-SBA-15 composite molecular sieves was prepared by post-synthesis method and characterized by XRD, N2 sorption, Py-FTIR, NH3-TPD, SEM and TEM. With the Hβ/Al-SBA-15 composite as support, Ni-W/Hβ/Al-SBA-15 catalyst was prepared through impregnation and its catalytic performance in the hydrocracking of naphthalene to BTX was investigated. The results verified that the Hβ/Al-SBA-15 composite are provided with both micropores and mesopores. Both Bronsted acid and Lewis acid sites are present on the surface of Hβ/Al-SBA-15 and its acidity is stronger than that of SBA-15. After loading Ni and W, the Ni-W/Hβ/Al-SBA-15 catalyst with moderate acidity and micro-mesoporous structure exhibits high activity in the hydrocracking of naphthalene to BTX; the conversion of naphthalene reaches 96%, with the selectivity of 61.1% to BTX.
Keywords:micro-mesopore material  naphthalene  hydrocraking catalyst  BTX  Hβ/Al-SBA-15 composite  Ni-W  
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