Based on above viewpoints, we choose olefin reduction B-component catalyst and utilize assembly technology of catalyst to compound two catalytic compoents having different properties in order to develope new catalyst for aromatization reaction of FCC gasoline.
在此认识基础上,选择了降烯烃功能B组分催化剂,采用催化剂“组装技术”,将两种性质不同的催化剂组分进行复配,开发出新型的催化裂化汽油芳构化催化剂。
参考来源 - 催化裂化汽油芳构化生产清洁油品的技术研究Results show that:(1)The de-olefins (via aromatization) ability of the de-coke catalyst (RFDO) can becompletely restored to the level of fresh FDO catalyst. However, the sulfur removal ability ofthe RFDO catalyst decrease pronouncedly compared with those of the fresh FDO catalyst.
结果表明:(1)失活FDO催化剂经过烧炭再生后可以较好地恢复其芳构化降烯烃性能,但是不能使其脱硫能力得到完全恢复。
参考来源 - FDO催化剂上FCC汽油改质·2,447,543篇论文数据,部分数据来源于NoteExpress
研究了一种非加氢降烯烃催化剂的制备及应用。
Application and preparation of a non-hydrogenation reducing-olefin catalyst were studied.
介绍了一种非加氢降烯烃催化剂的制备及应用。
Application and preparation of a non - hydrogenation reducing - olefin catalyst were introduced.
综述了国内外催化裂化汽油降烯烃及加氢脱硫技术进展。
This paper reviewed the advances of olefins degradation and hydrodesulphurization technologies for FCC gasoline at home and abroad.
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