Mo对贵金属P d/Al-Ti整体式催化剂催化燃烧苯反应性能的影响
Mo대귀금속P d/Al-Ti정체식최화제최화연소분반응성능적영향
Effect of Mo addition on the properties of Pd/Al-Ti monolithic catalysts for benzene catalytic combustion
  • 万方数据
    功能材料 공능재료
    JOURNAL OF FUNCTIONAL MATERIALS
    2013年 23期 3421-3424,3429 ,共5页

    贺站锋%何展荣%刘涛%王奂祎%王丹%蒋毅

    하참봉%하전영%류도%왕환의%왕단%장의

    钯钼催化剂%氧化钼%苯%催化燃烧%整体式催化剂 鈀鉬催化劑%氧化鉬%苯%催化燃燒%整體式催化劑
    파목최화제%양화목%분%최화연소%정체식최화제
    palladium molybdenum catalyst%molybdenum oxide%benzene%catalytic combustion%monolithic catalyst
    采用浸渍法制备了Mo掺杂的Pd/Al-Ti系整体式催化剂,考察了Mo添加量对Pd-Mo/Al-Ti整体式催化剂催化燃烧苯反应性能的影响,并对催化剂的稳定性做了研究.结果表明, Mo的添加明显提高了Pd/Al-Ti催化剂性能,当Mo添加量为5%时,催化活性最高,在225℃时苯转化率可达90%.采用X射线衍射、X射线光电子能谱、H2程序升温还原、NH3程序升温脱附和氮吸附等手段对催化剂进行表征,结果表明, Mo的加入增加了Pd物种在催化剂表面的分散,并调变了催化剂表面酸性,促进了催化剂表面氧浓度的增加,从而提高催化剂性能.研制的0.10%Pd-5%Mo/Al-Ti整体式催化剂在相同的反应条件下与0.25%Pd/Al-Ti整体式催化剂催化活性相当.
    채용침지법제비료Mo참잡적Pd/Al-Ti계정체식최화제,고찰료Mo첨가량대Pd-Mo/Al-Ti정체식최화제최화연소분반응성능적영향,병대최화제적은정성주료연구.결과표명, Mo적첨가명현제고료Pd/Al-Ti최화제성능,당Mo첨가량위5%시,최화활성최고,재225℃시분전화솔가체90%.채용X사선연사、X사선광전자능보、H2정서승온환원、NH3정서승온탈부화담흡부등수단대최화제진행표정,결과표명, Mo적가입증가료Pd물충재최화제표면적분산,병조변료최화제표면산성,촉진료최화제표면양농도적증가,종이제고최화제성능.연제적0.10%Pd-5%Mo/Al-Ti정체식최화제재상동적반응조건하여0.25%Pd/Al-Ti정체식최화제최화활성상당.
    Pd/Al-Ti monolith catalyst modified by Mo promoter were prepared by the wet impregnation method and tested for benzenne catalytic combustion.A series of Pd catalyst samples with different Mo contents were characterized by X-ray diffraction,X-ray photoelectron spectroscopy,temperature-programmed desorption of NH3 ,H2 temperature-programmed reduction and N2 adsorption.The results showed that the addition of Mo ef-fectively improved the activity of catalyst samples.Pd-Mo/Al-Ti sample with 5% Mo have the best catalytic ac-tivity and benzene conversion of 90% was obtained at temperature as low as 225 ℃.The addition of Mo effec-tively improved the activity of catalyst samples by increasing the dispersion of Pd active components,adj usting acidity and increasing oxygen species concentration on the surface of catalyst.0.10%Pd-5%Mo/Al-Ti catalyst had the same catalytic activity with the 0.25% Pd/Al-Ti catalyst.
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