| SO2对CoH-ZSM-5催化CH4还原NO催化性能的影响 |
| 摘要点击 3356 全文点击 1349 投稿时间:2005-09-20 修订日期:2005-11-10 |
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| 中文关键词 SO2 中毒 NO 选择催化还原 CoH-ZSM-5 CH4-SCR |
| 英文关键词 SO2 poison NO selective catalytic reduction CoH-ZSM-5 CH4-SCR |
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| 中文摘要 |
| 研究了富氧条件下SO2对CoH-ZSM-5上CH4选择还原NO(CH4-SCR)的影响,应用SO2-TPSR,NO+(O2)-TPD等方法研究了产生中毒的原因并定量研究了被毒化的活性位.反应在773 K进行时,加入体积分数78×10-6SO2,NO的转化率由72%逐渐降低并稳定在58%,提高反应温度至823 K,NO稳定转化率上升至62%.同时加入2.5 |
| 英文摘要 |
| Selective catalytic reduction of NO by methane over CoH-ZSM-5 in the presence of SO2 was studied.SO2-TPSR and NO+(O2)-TPD techniques were applied to quantify the active sites and probe the poison effect.At 773 K,addition of 78 ×10-6 SO2,the NO to N2 conversion ratio decreases from 72% and reaches stable level 58%.Increasing the reaction temperature to 823 K,the NO to N2 conversion ratio increases to 62%.Co-existence of 2.5% H2O and 78 ×10-6 SO2 at 773 K,the NO to N2 conversion ratio decreases further to 51%,but almost no effect is observed at 873 K.Three SO2 desorption centers at around 690 K,810 K and 910 K are formed over the SO2-TPSR spectrum of the poisoned catalyst.Even at 970 K, the species contained sulfur is not desorbed completely.The amount of adsorbed NO and active intermediate —NOy species decreases over the poisoned catalyst,indicating that partial active sites are covered by the compound contained sulfur.As a result,the NO conversion ratio decreases.On the other hand,the presence of SO2 inhibits the conversion of CH4 and the compounds contained sulfur is desorbed further at higher temperature,which causes the temperature where the optimum NO conversion shifts to 823 K. |
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