燃料化学学报
燃料化學學報
연료화학학보
JOURNAL OF FUEL CHEMISTRY AND TECHNOLOGY
2014年
6期
758-762
,共5页
负载型金属氮化物%催化剂%氨分解%制氢%反应动力学
負載型金屬氮化物%催化劑%氨分解%製氫%反應動力學
부재형금속담화물%최화제%안분해%제경%반응동역학
supported metallic nitride%catalysis%ammonia decomposition%hydrogen production%reaction kinetic
以La-CoMoNx/CNTs为催化剂,对氨分解制氢反应的本征动力学进行了研究。考察了N2浓度、H2浓度、NH3浓度以及反应温度对反应速率的影响。采用幂指数方程描述反应动力学,确定了本征动力学参数,推导出了本征动力学方程,得到反应的活化能为93.948 kJ/mol。同时对其反应机理进行了探讨,认为La-CoMoNx/CNTs催化剂上氨分解反应遵循Temkin-Pyzhev机理,即表面氮原子的结合脱附为反应的速率控制步骤。
以La-CoMoNx/CNTs為催化劑,對氨分解製氫反應的本徵動力學進行瞭研究。攷察瞭N2濃度、H2濃度、NH3濃度以及反應溫度對反應速率的影響。採用冪指數方程描述反應動力學,確定瞭本徵動力學參數,推導齣瞭本徵動力學方程,得到反應的活化能為93.948 kJ/mol。同時對其反應機理進行瞭探討,認為La-CoMoNx/CNTs催化劑上氨分解反應遵循Temkin-Pyzhev機理,即錶麵氮原子的結閤脫附為反應的速率控製步驟。
이La-CoMoNx/CNTs위최화제,대안분해제경반응적본정동역학진행료연구。고찰료N2농도、H2농도、NH3농도이급반응온도대반응속솔적영향。채용멱지수방정묘술반응동역학,학정료본정동역학삼수,추도출료본정동역학방정,득도반응적활화능위93.948 kJ/mol。동시대기반응궤리진행료탐토,인위La-CoMoNx/CNTs최화제상안분해반응준순Temkin-Pyzhev궤리,즉표면담원자적결합탈부위반응적속솔공제보취。
The reaction kinetics of ammoniade composition over La-CoMoNx/CNTs catalyst were studied. The effect of N2 concentration, H2 concentration, NH3 concentration and reaction temperature on the rate of ammonia decomposition were investigated. According to the experimental data, the correlative kinetic parameters were determined based on an exponential equation. The intrinsic kinetic equation was obtained. The activation energy of the reaction was 93. 948 kJ/mol. The reaction mechanism was also discussed. The reaction rate of ammonia decomposition over La-CoMoNx/CNTs was controlled by the combination desorption of nitrogen on the surface of the catalyst.