高效纳米钒催化剂非液相催化氧化机理研究
고효납미범최화제비액상최화양화궤리연구
Study on Mechanism of Non-liquid-phase Catalytic Oxidation of High-performance Nano-vanadium Catalyst
  • 万方数据
    材料导报 재료도보
    MATERIALS REVIEW
    2010年 4期 115-118 ,共4页

    杨绍利%潘复生%马兰%高仕忠

    양소리%반복생%마란%고사충

    纳米V_2O_5%钒催化剂%非液相催化%催化机理 納米V_2O_5%釩催化劑%非液相催化%催化機理
    납미V_2O_5%범최화제%비액상최화%최화궤리
    nano V_2O_5%vanadium catalysts%non-liquid-phase catalysis%catalytic mechanism
    根据高效纳米钒催化剂催化氧化SO_2的高活性现象,从理论上分析了高活性的原因,并采用综合热分析和SEM分析研究了其内部结构,提出了高效纳米钒催化剂的非液相催化氧化机理,推导出反应速率动力学模型.
    근거고효납미범최화제최화양화SO_2적고활성현상,종이론상분석료고활성적원인,병채용종합열분석화SEM분석연구료기내부결구,제출료고효납미범최화제적비액상최화양화궤리,추도출반응속솔동역학모형.
    Based on the highly efficient catalytic oxidation of SO_2 nano-vanadium catalyst of high activity phenomenon,according to the theoretical the reasons of high activity is analyzed,and its internal structure is researched by integrated thermal analysis and SEM.An efficient nano-catalysts of non-liquid-phase catalytic oxidation of vanadium mechanism is proposed,reaction rate kinetic model is derived.
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