Effect of the calcination temperature of cerium–zirconium mixed oxides on the structure and catalytic performance of WO3/CeZrO2 monolithic catalyst for selective catalytic reduction of NOx with NH3

Haidi Xu; Mengmeng Sun; Shuang Liu; Yuanshan Li; Jianli Wang; Yaoqiang Chen

首页> 外文期刊>RSC Advances >Effect of the calcination temperature of cerium–zirconium mixed oxides on the structure and catalytic performance of WO₃/CeZrO₂ monolithic catalyst for selective catalytic reduction of NO_x with NH₃

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Effect of the calcination temperature of cerium–zirconium mixed oxides on the structure and catalytic performance of WO₃/CeZrO₂ monolithic catalyst for selective catalytic reduction of NO_x with NH₃

机译：铈锆混合氧化物的煅烧温度对WO _{3 / CeZrO _{2 整体式催化剂选择性催化还原NO _{的结构和催化性能的影响> x 与NH ₃}}}

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A series of WO₃/CeZrO₂ catalysts, prepared at different calcination temperatures (400, 500, 600 and 700 °C) of cerium–zirconium mixed oxides (CeZrO₂) for the selective catalytic reduction of NO_x with ammonia (NH₃-SCR), were investigated via various characterizations, such as N₂ physisorption, XRD, Raman, NH₃-TPD, DRIFTS, XPS and H₂-TPR. The catalytic performance of NH₃-SCR was remarkably promoted by modestly increasing the calcination temperature of CeZrO₂: WO₃/CeZrO₂-500 possessed the lowest light-off temperature (173 °C) and complete conversion temperature (205 °C), while W/CeZrO₂-600 could achieve greater than 90% NO_x conversion in a broad temperature range of 220–455 °C. The characterization results indicated that modest enhancement of the calcination temperature of CeZrO₂ was beneficial to stabilizing the structure of the catalysts. The largest amount of Lewis acid sites, Ce3+ and surface active oxygen species, as well as strong redox properties of WO₃/CeZrO₂-500 should together contribute to its better low-temperature deNO_x activity. Moreover, increasing the calcination temperature of cerium–zirconium mixed oxides resulted in the enhancement of Br?nsted acid sites, which was responsible for the widened operation temperature window. Therefore, WO₃/CeZrO₂ serial catalysts with appropriate calcination treatment of CeZrO₂ would be a good choice for the removal of NO_x emitted from diesel engines. 展开▼

机译：在不同煅烧温度（400、500、600和600℃）下制备的一系列WO _{3 / CeZrO _{2 催化剂铈锆混合氧化物（CeZrO _{2 ）的选择性催化还原NO _{x <通过各种表征，如N <，对_{和氨（NH _{3 -SCR）的/ sub> 进行了研究。 sub> 2 物理吸附，XRD，拉曼，NH _{3 -TPD，DRIFTS，XPS和H _{2 -TPR。适度提高CeZrO _{2 的煅烧温度可显着提高NH _{3 -SCR的催化性能：WO _{3 / CeZrO _{2 -500具有最低的起燃温度（173°C）和完全的转化温度（205°C），而W / CeZrO _{2 -600可以达到90％以上的NO _{x 转化。表征结果表明，适度提高CeZrO _{2 的煅烧温度有利于稳定催化剂的结构。 Lewis酸部位，Ce 3 + 和表面活性氧种类最多，以及WO _{3 的强氧化还原特性 / CeZrO _{2 -500应该共同有助于其更好的低温deNO _{x 活动。此外，增加铈锆混合氧化物的煅烧温度会导致布朗斯台德酸位的增加，这是导致工作温度范围扩大的原因。因此，WO _{3 / CeZrO _{2 系列催化剂经过适当的煅烧处理CeZrO _{2 是去除柴油机排放的NO _{x 的好选择。}}}}}}}}}}}}}}}}}}}}}} 展开▼

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《RSC Advances》 |2017年第39期|共11页

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Haidi Xu; Mengmeng Sun; Shuang Liu; Yuanshan Li; Jianli Wang; Yaoqiang Chen;
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专利

1. Promotional effect of niobium substitution on the low-temperature activity of a WO₃/CeZrO_x monolithic catalyst for the selective catalytic reduction of NO_x with NH₃ [J] . Haidi Xu, Qingjin Lin, Yun Wang, RSC Advances . 2017,第75期

机译：铌取代对WO _{3 / CeZrO _{x 整体催化剂低温选择性催化还原NO _{的低温活性的促进作用> x 与NH ₃}}}

2. Catalytic performance of acidic zirconium-based composite oxides monolithic catalyst on selective catalytic reduction of NO_x with NH3 [J] . Haidi Xu, Yun Wang, Yi Cao Chemical engineering journal . 2014,第Null期

机译：酸性锆基复合氧化物整体催化剂对NH3选择性催化还原NO_x的催化性能

3. Selective catalytic reduction of NO_x with NH_3 over iron-cerium mixed oxide catalyst: Catalytic performance and characterization [J] . Zhibo X., Chunmei L., Dongxu G., Journal of Chemical Technology & Biotechnology . 2013,第7期

机译：铁铈混合氧化物催化剂上用NH_3选择性催化还原NO_x的催化性能和表征

4. A novel catalytic activity of Ce-Zr-Mn-O_x mixed oxides for low temperature selective catalytic reduction of NO with NH_3 [C] . Qiuiin Zhang, Zhongxian Song, Ping Ning International Conference on Energy, Environment and Sustainable Development . 2014

机译：Ce-Zr-Mn-O_x混合氧化物的一种新型催化活性，用于低温选择性催化还原NH_3

5. Development and characterization of mixed oxide catalysts for the selective catalytic reduction of nitric oxide from stationary sources using ammonia. [D] . Pena, Donovan Alexander. 2003

机译：使用氨从固定来源选择性催化还原一氧化氮的混合氧化物催化剂的开发和表征。

6. A Combined Mechanochemical and Calcination Route to Mixed Cobalt Oxides for the Selective Catalytic Reduction of Nitrophenols [O] . Lorianne R. Shultz, Bryan McCullough, Wesley J. Newsome, 2020

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3. /SUB(57) The invention relates to a method for the catalytic decomposition of NSUB2/SUBO into NSUB2/SUB and OSUB2/SUB. The inventive method is carried out at a high temperature, generally between 700 and 1000�C, at a high WHSV and in the presence of a catalyst comprising a mixed oxide of zirconium and cerium in the form of a solid solution. The invention also relates to a method for the decomposition, into NSUB2/SUB and OSUB2/SUB, of NSUB2/SUBO present in the effluent from a nitric acid production unit. [P] . 外国专利： EA008455B1 . 2007-06-29

机译：（57）本发明涉及一种将N _{2 O催化分解为N _{2 和O _{2 的方法。本发明的方法是在高温下，通常在700至1000℃之间，在高WHSV下，并在催化剂的存在下进行的，该催化剂包含固溶体形式的锆和铈的混合氧化物。本发明还涉及一种用于将来自硝酸的流出物中存在的N _{2 O分解为N _{2 和O _{2 的方法。制酸单位。}}}}}}

4. Supported catalyst, monolithic selective catalytic reduction (SCR) catalyst, preparation method therefor, and method for nitrogen oxides removal [P] . 外国专利： US11219859B2 . 2022-01-11

机译：支持的催化剂，单片选择性催化还原（SCR）催化剂，其制备方法和氮氧化物去除方法

5. CARRIER-BASED CATALYST, MONOLITHIC CATALYST OF SELECTIVE CATALYTIC REDUCTION (SCR), METHOD FOR THEIR PREPARATION AND METHOD FOR REMOVING NITROGEN OXIDES [P] . 外国专利： RU2758258C2 . 2021-10-27

机译：基于载体的催化剂，选择性催化还原（SCR）的整体催化剂，其制备方法和除去氮氧化物的方法

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Effect of the calcination temperature of cerium–zirconium mixed oxides on the structure and catalytic performance of WO3/CeZrO2 monolithic catalyst for selective catalytic reduction of NOx with NH3

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Effect of the calcination temperature of cerium–zirconium mixed oxides on the structure and catalytic performance of WO₃/CeZrO₂ monolithic catalyst for selective catalytic reduction of NO_x with NH₃