SEM-EDS组合手段对加氢催化剂失活的分析及应用  被引量:1

Analysis and application for deactivation of hydrogenation catalyst by SEM-EDS combination means

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作  者:韩龙年 辛靖 陈禹霏 范文轩 张海洪 朱元宝 Han Longnian;Xin Jing;Chen Yufei;Fan Wenxuan;Zhang Haihong;Zhu Yuanbao(CNOOC Institute of Chemicals and Advanced Materials,Beijing 102209,China)

机构地区:[1]中海油化工与新材料科学研究院,北京102209

出  处:《工业催化》2023年第1期56-63,共8页Industrial Catalysis

摘  要:针对加氢催化剂失活现象,在X射线荧光光谱仪(XRF)宏观分析的基础上,进一步采用扫描电子显微镜(SEM)和X射线能谱仪(EDS)结合的多种组合手段进行多维微观分析。结果表明,XRF元素对比分析结果可以在宏观层面反映P、Si和Fe元素含量的增加是催化剂失活的原因;SEM-EDS结合的面扫描、线扫描、点扫描和微区扫描等微观层面的对比分析结果均显示,催化剂表面异常沉积含P、Si和Fe元素的杂质,尤其是含P元素的杂质,覆盖催化剂表面或沉积在催化剂孔道中导致催化剂失活。基于具体的研究目标,XRF分析与一种或几种SEM-EDS组合手段的有效结合可为催化剂失活的分析研究提供“定制化”分析支撑。In view of the deactivation of hydrogenation catalyst,the multi-dimensional micro analysis was carried out by combining scanning electron microscopy(SEM) and X-ray energy dispersive spectroscopy(EDS) based on the macro analysis of X-ray fluorescence spectrometer(XRF).The results showed that the increase of P,Si and Fe elements was the cause of catalyst deactivation from the XRF comparative analysis results;but the comparative analysis results of surface scanning,line scanning,point scanning and micro area scanning of SEM-EDS showed that impurities containing P,Si and Fe elements were abnormally deposited on the surface of the deactivated catalyst,especially the impurities containing P element,which led to catalysts’ deactivation by covering the catalyst surface or deposited in the catalyst channel.Based on specific research objectives,the effective combination of XRF analysis and one or more SEM-EDS combination means can provide “customized” analytical support for the analysis of catalyst deactivation.

关 键 词:石油化学工程 SEM-EDS 组合手段 加氢催化剂 失活分析 应用 

分 类 号:TQ426.95[化学工程] TE624.9[石油与天然气工程—油气加工工程]

 

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