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绝氧条件下β-Bi2Mo2O9晶相上丙烯氨氧化反应的Monte Carlo模拟研究
引用本文:陈丰秋,汪洋,詹晓力. 绝氧条件下β-Bi2Mo2O9晶相上丙烯氨氧化反应的Monte Carlo模拟研究[J]. 中国化学工程学报, 2005, 13(5): 615-622
作者姓名:陈丰秋  汪洋  詹晓力
作者单位:Department of Chemical and Biochemical Engineering, Zhejiang University, Hangzhou 310027, China
基金项目:国家自然科学基金,the Fundamental Research Foundation of SINOPEC
摘    要:A random walk Monte Carlo (RWMC) simulation model of catalytic particle was established on the basis of the structures of bismuth molybdate catalysts and mechanisms of catalytic reactions with propylene selective oxidation and ammoxidation. The simulation results show that rationality of the RWMC model is proved on the basis of pulse experimental data. One of the most remarkable factors affecting catalytic behavior is the transfer of bulk lattice oxygen, which decides the rate of ammonia-consuming and propylene-consuming. The selectivity of main products reaches the maximum after the reduction of catalysts to a certain degree. It is inferred that catalytic performance improves greatly if the ratio of capacity for dehydrogenation from adsorbed propylene molecule on catalytically active site of molybdenum metal-imido group (Mo=NH) to that on catalytically active site of molybdenum metal-oxo group (Mo=O) becomes much higher.

关 键 词:绝氧条件 β-Bi2Mo2O9 晶相 丙烯氨 氧化反应 Monte Carlo模拟 催化剂
收稿时间:2004-12-28
修稿时间:2004-12-282005-07-04

Monte Carlo Simulation of Propylene Selective Oxidation and Ammoxidation overβ-Bi2Mo2O9 Catalyst under Anaerobic Condition
CHENFengqiu,WANGYang,ZHANXiaoli. Monte Carlo Simulation of Propylene Selective Oxidation and Ammoxidation overβ-Bi2Mo2O9 Catalyst under Anaerobic Condition[J]. Chinese Journal of Chemical Engineering, 2005, 13(5): 615-622
Authors:CHENFengqiu  WANGYang  ZHANXiaoli
Affiliation:Department of Chemical and Biochemical Engineering, Zhejiang University, Hangzhou 310027, China
Abstract:A random walk Monte Carlo (RWMC) simulation model of catalytic particle was established on the basis of the structures of bismuth molybdate catalysts and mechanisms of catalytic reactions with propylene selective oxidation and anmoxidation. The simulation results show that rationality of the RWMC model is proved on the basis of pulse experimental data. One of the most remarkable factors affecting catalytic behavior is the transfer of bulk lattice oxygen, which decides the rate of ammonia-consuming and propylene-consuming. The selectivity of main products reaches the maximum after the reduction of catalysts to a certain degree. It is inferred that catalytic performance improves greatly if the ratio of capacity for dehydrogenation from adsorbed propylene molecule on catalytically active site of molybdenum metal-imido group (Mo=NH) to that on catalytically active site of molybdenum metal-oxo group (Mo=O) becomes much higher.
Keywords:catalyst  modeling  Monte Carlo simulation  selective oxidation and ammoxidation of propylene  bismuth molybdate  random walk Monte Carlo model
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