Preparation and High-Temperature Water-Gas Shift Catalytic Features of La_(1-x)Ce_xFeO_3 Perovskite

Ma Hongqin; Zhu Huiming; Tan Xin

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Preparation and High-Temperature Water-Gas Shift Catalytic Features of La_(1-x)Ce_xFeO_3 Perovskite

机译：La_（1-x）Ce_xFeO_3钙钛矿的制备及其高温水煤气变换催化性能

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Based on water-gas shift reaction mechanism and perovskite compounds characteristics, La_(1-x)Ce_xFeO_3 (.K) perovskite were designed and prepared as shift catalysts. DTA and XRD results reveal that La_(1-x)Ce_xFeO_3 can be formed at 730 approx 760 deg C by mechanic-mix thermal decomposition method. Activity and heat-resisting tests show that La_(1-x)Ce_xFeO_3 (.K) possess high thermal stability if x is less than or equals to 0.5. But when x is greater than 0.5, La_(1-x)Ce_xFeO_3 (.K) will be converted into ceria and magnetite partially or completely under shift reaction conditions. In the case of x = 0.5, the conversion of CO is about 68 percent at 530 deg C. Potassium can greatly improve the low temperature activity, but slightly reduces the high temperature activity, and has little impact on the thermal stability. La_(0.5)Ce_(0.5)FeO_3 (.K) is a promising chromium-free high temperature shift catalyst.

机译：基于水煤气变换反应机理和钙钛矿化合物的特性，设计制备了La_（1-x）Ce_xFeO_3（.K）钙钛矿作为变换催化剂。 DTA和XRD结果表明，La_（1-x）Ce_xFeO_3可以通过机械混合热分解法在730℃至约760℃形成。活性和耐热性测试表明，如果x小于或等于0.5，La_（1-x）Ce_xFeO_3（.K）具有很高的热稳定性。但是，当x大于0.5时，在转变反应条件下，La_（1-x）Ce_xFeO_3（.K）将部分或全部转化为二氧化铈和磁铁矿。在x ＝ 0.5的情况下，在530℃下CO的转化率为约68％。钾可以极大地改善低温活性，但是稍微降低高温活性，并且对热稳定性几乎没有影响。 La_（0.5）Ce_（0.5）FeO_3（.K）是一种有前途的无铬高温变换催化剂。

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《Journal of rare earths》 |2004年第3期|p.357-360|共4页
作者
Ma Hongqin; Zhu Huiming; Tan Xin;
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正文语种 eng
中图分类工业经济理论;
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catalytic chemistry; perovskite compounds; chromium-free high-temperature shift catalyst; rare earths;

机译：催化化学;钙钛矿化合物;无铬高温变换催化剂;稀土;

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1. Preparation and High-Temperature Water-Gas Shift Catalytic Features of La_(1-x)Ce_xFeO_3 Perovskite [J] . Ma Hongqin, Zhu Huiming, Tan Xin Journal of rare earths . 2004,第3期

机译：La_（1-x）Ce_xFeO_3钙钛矿的制备及其高温水煤气变换催化性能
2. Effect of Ce on the structural features and catalytic properties of La_((0.9-x))Ce_xFeO_3 perovskite-like catalysts for the high temperature water-gas shift reaction [J] . Y. Sun, S.S. HIa, G.J. Duffy, International journal of hydrogen energy . 2011,第1期

机译：Ce对La _（（0.9-x））Ce_xFeO_3钙钛矿型高温水煤气变换反应催化剂的结构特征和催化性能的影响
3. The study on the catalytic performance and characterization of perovskite catalyst (La_(0.9)Sr_(0.1)Cr_(1-2x)Mn_xCo_xO_(3±δ)) for high temperature water-gas shift reaction with simulated coal-derived syngas [J] . Jae Hoon Kwak, Seul Gi Lee, See Hoon Lee Catalysis Today . 2014,第Null期

机译：模拟煤衍生合成气对钙钛矿催化剂（La_（0.9）Sr_（0.1）Cr_（1-2x）Mn_xCo_xO_（3±δ））的高温水煤气变换反应的催化性能和表征
4. PREPARATION, CHARACTERIZATION AND CATALYTIC ACTIVITY OF THE SELECTIVE CO OXIDATION USING LA_(0.5)CE_(0.5)CO_(1-X)CU_XO_(3-A) PEROVSKITE CATALYSTS [C] . Yeong Il Lee, Dae Kyu Kang, Jae Ro Kim, World hydrogen energy conference;WHEC 2008 . 2008

机译：LA_（0.5）CE_（0.5）CO_（1-X）CU_XO_（3-A）钙钛矿型催化剂的选择性CO氧化的制备，表征和催化活性
5. Kinetic Experimental and Modeling Studies on Iron-Based Catalysts Promoted with Lanthana for the High-Temperature Water-Gas Shift Reaction Characterized with Operando UV-Visible Spectroscopy and for the Fischer-Tropsch Synthesis. [D] . Hallac, Basseem Bishara. 2014

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6. Preparation of Supported Perovskite Catalyst to Purify Membrane Concentrate of Coal Chemical Wastewater in UV-Catalytic Wet Hydrogen Peroxide Oxidation System [O] . Wenwen Zhang, Zhenxue Liu, Pei Chen, 2021

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8. Catalytic membrane reactor for facilitating the water-gas shift reaction at high temperature [R] . Edlund, D. J. 1994

机译：催化膜反应器，用于促进高温水煤气变换反应

Preparation and High-Temperature Water-Gas Shift Catalytic Features of La_(1-x)Ce_xFeO_3 Perovskite

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