Comparison of De-NO_X Performance of Mn/AC and Mn/Bio-Char on Low-Temperature SCR

机译：低温SCR对Mn / Ac和Mn / Bio-Char的De-No_x性能的比较

获取原文

页面导航

摘要
著录项
相似文献
相关主题

摘要

In low-temperature SCR, corn straws pyrolysis carbon (CS) was prepared as a catalyst support and activated carbon (AC) was a comparison. Manganese (7 wt.%) was loaded respectively on this two supports (Mn/AC and Mn/CS). In 50°C～300°C SCR experiment, the highest NO conversion by using CS is 36.6 Vol.% at 300°C, while AC 37.9 Vol.% at 200°C. After loaded the manganese element, NO conversion increases with the temperature. At 300°C, Mn/AC has the highest NO conversion (81.9 Vol.%), while Mn/AC is 65.3 Vol.%. The sulfur resistance performance test shows that NO conversion decreases with the increasing of SO_2 concentration. In the 400ppm SO_2 fuel gas at 300°C, using Mn/CS, NO conversion reduces 16.7 Vol.%, however, using Mn/AC, it reduces 22.6 Vol.%. It is promising to apply biomass pyrolysis carbon modified catalyst.

机译：在低温SCR中，制备玉米秸秆热解碳（CS）作为催化剂载体和活性炭（AC）是比较。分别在这两个载体（Mn / Ac和Mn / Cs）上加载锰（7重量％）。在50°C〜300°C SCR实验中，使用CS的最高转换为36.6 Vol.％在300°C，而AC 37.9 Vol.％在200°C。装载锰元件后，不随温度增加。在300℃下，Mn / Ac没有转换最高（81.9 Vol.％），而Mn / Ac是65.3 Vol.％。硫抗性性能试验表明随着SO_2浓度的增加而无转化率降低。在300ppm SO_2燃料气体在300℃，使用Mn / Cs，无转化可减少16.7体积％。然而，使用Mn / Ac，它减少了22.6体积％。％。施加生物质热解碳改性催化剂是很有希望的。

著录项

来源
《International Conference on Green Transport, Renewable Energy and Environment》|2014年||共5页
会议地点
作者
Meng Si; Zifang Wang; Wei Ji; Guang Yang; Liansheng Liu; Jinxiang Wu; Enyu Wang; Xiang Gou;
展开▼
作者单位

展开▼
会议组织
原文格式 PDF
正文语种
中图分类 TB3-53;
关键词
Corn straws pyrolysis carbon; Low-temperature SCR; Catalyst support; MnO_X;

机译：玉米秸秆热解碳;低温SCR;催化剂支持;MNO_X;

相似文献

外文文献
中文文献
专利

1. x and Hg 0 from simulated flue gas by Ce x Zr y Mn z O 2/r-Al 2O 3: the performance and its mechanism]]> [J] . Pei Lu, Huifang Yue, Yi Xing, Environmental Science and Pollution Research . 2018,第21期

机译：<！[cdata [no x 通过ce的模拟烟气< 下标> <重点类型=“斜体”> x zr y mn Z O 2 / r-al <下标> 2 O 3 ：性能及其机制]]>
2. Development of low-temperature desulfurization performance of a MnO2/AC composite for a combined SO2 trap for diesel exhaust [J] . Liu X. C., Osaka Y., Huang H. Y., RSC Advances . 2016,第98期

机译：用于柴油机组合SO2陷阱的MNO2 / AC复合材料的低温脱硫性能的研制
3. V2O5-modified Mn-Ce/AC catalyst with high SO2 tolerance for low-temperature NH3-SCR of NO [J] . Jiang Lijun, Liu Qingcai, Ran Guangjing, Chemical engineering journal . 2019,第期

机译：V2O5改性的MN-CE / AC催化剂具有高SO2耐受低温NH3-SCR的耐受性
4. Comparison of De-NO_X Performance of Mn/AC and Mn/Bio-Char on Low-Temperature SCR [C] . Meng Si, Zifang Wang, Wei Ji, International Conference on Green Transport, Renewable Energy and Environment . 2014

机译：低温SCR的Mn / Ac和Mn / Bio-Char对De-No_x性能的比较
5. Parallel implementation and benchmarking in cluster architectures of one-dimensional discrete fourier transforms: A comparison using the row-column algorithm versus a novel formulation based on the bluestein/pseudocirculant algorithm. [D] . Velez Rodriguez, William. 2014

机译：一维离散傅里叶变换的群集体系结构中的并行实现和基准测试：使用行列算法与基于bluestein / pseudocirculant算法的新颖公式进行比较。
6. HPLC-CUPRAC post-column derivatization method for the determination of antioxidants: a performance comparison between porous silica and core-shell column packing [O] . Syed A. Haque, Socrates Jose P. Cañete -1

机译：HPLC-CUPRAC柱后衍生化方法测定抗氧化剂：多孔硅胶和核-壳型柱填料的性能比较
7. MOF-74M (M = Mn, Co, Ni, Zn, MnCo, MnNi, and MnZn) for Low-Temperature NH3SCR and In Situ DRIFTS Study Reaction Mechanism [O] . -1

机译：用于低温NH3SCR的MOF-74M（M = Mn，CO，Ni，Zn，MNCO，MNNI和MNZN）和原位漂移研究反应机制
8. Au/MnO(x) Catalytic Performance Characteristics for Low-Temperature CO Oxidation. Effect of CO2 on the Performance of Au/MnO(x) and Pt/SnO(x) Low-Temperature CO Oxidation Catalysts [R] . Hoflund, Gar B. 1996

机译：au / mnO（x）催化低温CO氧化的性能特征。 CO2对au / mnO（x）和pt / snO（x）低温CO氧化催化剂性能的影响

Comparison of De-NO_X Performance of Mn/AC and Mn/Bio-Char on Low-Temperature SCR

摘要

著录项

相似文献

相关主题

期刊订阅