当代化工
噹代化工
당대화공
CONTEMPORARY CHEMICAL INDUSTRY
2014年
9期
1873-1875
,共3页
超声波%γ-Al2O3载体
超聲波%γ-Al2O3載體
초성파%γ-Al2O3재체
Ultrasonic%γ-Al2O3 carrier
介绍了γ-Al2O3作为催化剂载体的优点和最新研究迚展,同时介绍了超声波在化学合成领域中的収展过程以及超声波在γ-Al2O3载体制备过程中的作用机理。经过不同超声波反应条件制备的γ-Al2O3载体,其团聚程度,孔结构等性质均会収生不同程度的变化,能够对所制备载体的性质起到优化作用,仍而提高催化剂的性能。
介紹瞭γ-Al2O3作為催化劑載體的優點和最新研究迚展,同時介紹瞭超聲波在化學閤成領域中的収展過程以及超聲波在γ-Al2O3載體製備過程中的作用機理。經過不同超聲波反應條件製備的γ-Al2O3載體,其糰聚程度,孔結構等性質均會収生不同程度的變化,能夠對所製備載體的性質起到優化作用,仍而提高催化劑的性能。
개소료γ-Al2O3작위최화제재체적우점화최신연구중전,동시개소료초성파재화학합성영역중적수전과정이급초성파재γ-Al2O3재체제비과정중적작용궤리。경과불동초성파반응조건제비적γ-Al2O3재체,기단취정도,공결구등성질균회수생불동정도적변화,능구대소제비재체적성질기도우화작용,잉이제고최화제적성능。
Advantages ofγ-Al2O3 as catalyst carrier were introduced as well as its latest research progress. Application of ultrasonic wave in the field of chemical synthesis was described as well as the function mechanism of ultrasonic in preparation process ofγ-Al2O3.γ-Al2O3 carriers which were synthesized in different ultrasonic reaction conditions had different degrees of change in agglomeration and pore structure. The ultrasonic can optimize the properties of theγ-Al2O3 carrier, and improve the performance of catalyst.
