锰钛复合催化剂低温NH3-SCR过程机制的原位红外研究毕业论文
2022-02-28 21:32:00
论文总字数:24031字
摘 要
众所周知,氮氧化物对生态环境和人体健康都造成了极大的威胁,是很常见的大气污染物。截至目前为止人们发现国际上应用最广泛的烟气脱硝技术是低温NH3-SCR技术。该技术具有低能耗、低毒化和低成本等优点,核心是催化剂。研发者将NH3-SCR装置布置在除尘和脱硫装置之后,发现此时需要一种具有低温高活性的催化剂,因此,锰基催化剂被广泛研究。
本文首先以硝酸锰,钛酸四丁酯为前驱体,采用自发沉积策略成功制备出一系列不同锰含量的MnaTi1-a催化剂,通过XRD、Raman、SEM、TEM、N2吸附-脱附、XPS、H2-TPR、NH3-TPD及原位FTIR等表征技术对催化剂进行了分析。结果表明,这一系列催化剂具有完全非晶态结构,Mn、Ti之间存在强相互作用,促进形成高度融结态,具有较大比表面积和孔容。其中Mn0.5Ti0.5具有较强的表面酸性和较多的L酸量,较高浓度的表面Mn4 离子,较强的氧化还原能力,所以表现出了更优异的脱硝活性。在结合表征结果的基础上推导出MnaTi1-a催化剂合理的反应机理过程。
关键词:氮氧化物 MnaTi1-a催化剂 反应机理
Abstract
As we all know, nitrogen oxides have caused a great threat on the ecological environment and human health , they are very common air pollutants. So far it has been found that the most widely used flue gas denitrification technology is low temperature NH3-SCR technology. The technology has the advantages of low energy consumption, low toxicity and low cost, the core of this process is the catalyst. it is found that a catalyst with high activity at the low temperature is required at this time, and therefore, the manganese-based catalyst is widely studied.
In this paper, manganese nitrate and tetrabutyl titanate are used as precursors and a series of MnaTi1-a catalysts with varying Mn contents are prepared by a spontaneous deposition method. The structure and properties of the catalysts are studied by the means of XRD、Raman、SEM、TEM、N2 adsorption-desorption、XPS、H2-TPR、NH3-TPD and In-situ FTIR. The results show that the series of catalysts have a complete amorphous structure, a strong interaction between Mn and Ti, a large specific surface area and pore volume, which promote to form a high inosculated state. Among them, The Mn0.5Ti0.5 has strong surface acidity and L acid content, and the higher concentration of Mn4 ions on the surface has stronger redox ability, and thus exhibits more excellent NH3-SCR activity. Mechanism of NH3-SCR reaction over Mn0.5Ti0.5 catalyst is proposed based on the physico-chemical properties and In-situ FTIR results.
Key words: nitrogen oxide; MnaTi1-a catalysts; Mechanism
目录
摘 要 I
Abstract II
第一章 文献综述 1
1.1 课题背景 1
1.2 NOx的脱除及控制技术研究现状 1
1.3 SCR技术研究现状 2
1.3.1 SCR工艺研究 2
1.3.2 锰基催化剂研究 3
1.4 NH3-SCR的反应过程和机理研究 4
1.5 课题的意义、思路和内容 5
1.5.1 课题的意义 5
1.5.2 研究内容 5
第二章 实验部分 7
2.1 实验仪器及原料 7
2.1.1 实验主要仪器 7
2.1.2 实验试剂及气体 7
2.2 催化剂的制备 8
2.3 催化剂的表征 8
2.3.1 X射线荧光光谱(XRF) 8
2.3.2 X-射线衍射(XRD) 9
2.3.3 拉曼光谱(Raman) 9
2.3.4 N2吸附-脱附测试 9
2.3.5 环境扫描电镜(SEM) 9
2.3.6 透射电子显微镜(TEM) 9
2.3.7 H2程序升温还原(H2-TPR) 9
2.3.8 NH3程序升温脱附(NH3-TPD) 9
2.3.9 电子能谱(XPS) 10
2.3.10 原位红外光谱(In-situ FTIR) 10
2.4 催化剂脱硝性能评价 10
2.4.1 脱硝性能评价装置 10
2.4.2 脱硝性能评价试验 11
第三章 NH3-SCR过程机制的研究 12
3.1. 催化活性结果 12
3.1.1 NH3-SCR活性结果 12
3.1.2 H2O/SO2对NH3-SCR反应的影响 13
3.2 表征 14
3.2.1 XRD和Raman分析 14
3.2.2 SEM和TEM分析 15
3.2.3 N2吸附-脱附分析 15
3.2.4 XPS分析 16
3.2.5 H2-TPR和NH3-TPD分析 18
3.3 原位FTIR分析 19
3.3.1 NH3/NO O2吸附 19
3.3.2 NO O2和NH3物种在Mn0.5Ti0.5催化剂表面的瞬态反应 20
3.3.3 NO O2和NH3共同通入 21
3.3.4 原位FTIR分析的过程机制 22
第四章 总结 23
参考文献 24
致谢 27
- 文献综述
1.1 课题背景
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