A density functional study of heterogeneous formation and decomposition of N2O on the surface of char
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Graphical Abstract
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Abstract
A comprehensive density functional study was carried out to get an insight into the mechanisms of heterogeneous formation and decomposition of N2O on the char surface by using a char model with zig-zag configuration. The geometry optimizations of reactants, intermediates, transition states and products were made by using density functional theory at the UB3LYP/6-31G(d) level. On the basis of the reaction pathways analysis, the energies of optimized geometries were calculated and corrected with zero point energy; the relative energies and the change of enthalpy were then worked out. Two different reaction pathways are found for N2O formation from reactions between gaseous NO and another pre-adsorbed NO on the surface of char, with the energy barriers of 69.3kJ/mol and 200.0kJ/mol, respectively. N2O may also be released through direct attacking pyridinic nitrogen by NO; the highest energy barrier is 418.0kJ/mol. N2O can be decomposed to N2 on the surface of char; the energy barrier is 100.8kJ/mol. Both the heterogeneous formation and decomposition of N2O are exothermic. Reaction rate constants for rate-determining steps were calculated with transition state theory. The rate of N2O destruction is slightly lower than that of N2O formation on the char surface at low temperature; two rates become close at higher temperature. High temperature is favorable for the heterogeneous decomposition of N2O.
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