工程科学学报2024,Vol.46Issue(3):407-419,13.DOI:10.13374/j.issn2095-9389.2023.04.27.002
冶金含铁尘泥制备的Mn-Ce掺杂Fe基催化剂及特性
Preparation and characteristics of Mn-Ce-doped Fe-based catalysts using metallurgical dust and mud containing iron
摘要
Abstract
Metallurgical solid wastes,such as metallurgical dust and mud containing iron,are formed during metallurgical sintering.They are composed of complex components and are harmful to the environment.Alongwith the current metallurgical sintering process,NOxemission control is the top priority of pollution control in the steel industry.This paper proposes a new idea of preparing doped low-temperature catalysts using metallurgical dust and mud containing iron.Herein,the metallurgical iron-containing mud was modified by acid leaching,and the products were doped with Ce and Mn by the precipitation method to prepare a new type of catalyst.The prepared Mn-Ce-doped mud-based catalyst(Mn0.05Ce0.1/ADM,the ADM represents the dust and mud from acidolysis)was characterized via X-ray diffraction,nitrogen adsorption/desorption isotherm method,scanning electron microscopy,X-ray photoelectron spectroscopy,temperature-programmed desorption of ammonia,and temperature-programmed reduction of hydrogen.The results showed that Mn0.05Ce0.1/ADM achieveda NOxremoval rate of>90%within a wide temperature range from 170℃to 430℃.Moreover,itshowed excellent SO2 and H2O resistance.A microstructural analysis revealed that the strong interaction between Fe-Ce-Mn could improve the surface acidity of the catalyst,thus increasing Lewis acid sites.Further,the active components of Mn0.05Ce0.1/ADM prepared by Ce and Mn exhibited good dispersion and an excellent mesoporous structure.In particular,Mn doping could inhibit the crystallization degree on the catalyst surface,improve the dispersed state of the active components in Mn0.05Ce0.1/ADM,and help improve the catalyst SCR(Selective Catalytic Reduction)activity.Combined with theanalysis of the factors influencing the catalyst,the results showed that the Ce-Mn doped catalyst increased the Fe3+ concentration while sacrificing a certain amount of Ce3+ and high-valent Mn+,achieving the most balanced denitration activity.Mn0.05Ce0.1/ADM formed more NO active centers by increasing the Lewis acid content to promote the generation of nitrate species and NO2.Moreover,Mn doping enhanced the Fe-Ce synergy,which makes active species(Mn-Ce-Fe)easier reduction.In particular,the increase in surface oxygen mobility could significantly improve the low-temperature activity of the catalyst.The water and sulfur resistance tests of the three catalysts(Ce0.1/ADM、Mn0.05/ADM、Mn0.05Ce0.1/ADM)showed that Mn0.05Ce0.1/ADM benefited from the excellent water and sulfur resistance of Fe and Ce.The results showed that doping Ce into ADM inhibited the adsorption of H2O molecules on the active component β-MnO2 and also the reaction of SO2 molecules with the component.The results reported herein can provide theoretical references for the high-value-added utilization of metallurgical solid wastes.关键词
冶金固废/含铁尘泥/掺杂/铁基/催化剂Key words
metallurgical solid waste/metallurgical dust and mud containing iron/doping/iron-based/catalyst分类
资源环境引用本文复制引用
高志芳,龙红明,高翔鹏,李明阳,张浩,周海成..冶金含铁尘泥制备的Mn-Ce掺杂Fe基催化剂及特性[J].工程科学学报,2024,46(3):407-419,13.基金项目
安徽省高等学校科学研究重大资助项目(2023AH040147) (2023AH040147)
安徽省高校优秀青年科研资助项目(2022AH030044) (2022AH030044)
安徽省高等学校科学研究重点资助项目(2022AH050305) (2022AH050305)
