Poisoning Effects of P and Zn on Commercial NH3-SCR V2O5-MoO3/TiO2 Catalyst

机译：P和Zn在商用NH 3 - SCR V 2 O 5 -MOO 3 / TIO < INF> 2 催化剂

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The purpose of this study is to investigate the poisoning effects of Phosphorus (P) and Zinc (Z) over commercial NH₃-SCR V₂O₅-MoO₃/TiO₂ with realistic concentrations, used in coal-fired power plant. The catalyst is poisoned by two different methods, incipient wetness impregnation, and solid diffusion method and then characterized by NH₃-Temperature Programmed Desorption (NH₃-TPD) and H₂-Temperature Programmed Reduction (H₂-TPR). The results show that P and Zn had poisoning effects over V₂O₅-MoO₃/TiO₂ when poisoned by Incipient Wetness Impregnation method, but there are negligible poisoning effects when poisoned by solid diffusion. On the other hand, P has comparatively more poisoning effects as compared to Zn in both poisoning methods. NH₃-TPD and H₂-TPR tests indicate that the ammonia desorption curves for P and Zn poisoned catalysts using incipient wetness impregnation method are shifted towards lower ammonia desorption, while the vanadium V active component is reduced from V^{5+ to V^{4+ which has been observed to causes the deactivation of the catalyst.}}

机译：本研究的目的是研究磷（P）和锌（Z）在商业NH上的中毒作用_{3 -SCR V._{2 O._{5 -moo_{3 / TiO._{2 具有现实浓度，用于燃煤发电厂。催化剂被两种不同的方法中毒，初期湿润浸渍和固体扩散方法，然后表征为NH_{3 - 温度编程解吸（NH_{3 -tpd）和h_{2 - 减少温度（h_{2 -TPR）。结果表明，P和Zn对V的中毒作用_{2 O._{5 -moo_{3 / TiO._{2 当由初期湿润浸渍方法中毒时，但是当通过固体扩散中毒时存在可忽略的中毒效应。另一方面，与两种中毒方法相比，P与Zn相比，P效果相对较多。 NH._{3 -TPD和H._{2 -TPR试验表明，使用初期湿润浸渍法的P和Zn中毒催化剂的氨解吸曲线朝向更低的氨解吸移位，而钒V活性组分从V降低^{5 + 到V.^{4 + 已经观察到这导致催化剂的失活。}}}}}}}}}}}}}}}}}

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《International Conference on Power Generation Systems and Renewable Energy Technologies》|2018年|584p|共6页
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作者
Zulfiqar Ali; Qiang lu; Tahir Iqbal; Sajida Riffat Laraib; Zulqarnain Arain; Manoj Kumar Panjwani; M. Usman Tahir; Asif Muhammad;
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中图分类 TM6-53;
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adsorption; ammonia; catalysis; catalysts; molybdenum compounds; phosphorus; reduction (chemical); thermally stimulated desorption; titanium compounds; vanadium compounds; zinc;

机译：吸附;氨;催化;催化剂;钼化合物;磷;还原（化学）;热刺激的解吸;钛化合物;钒化合物;锌;

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Poisoning Effects of P and Zn on Commercial NH3-SCR V2O5-MoO3/TiO2 Catalyst

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