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机构地区:[1]石油大学化工学部
出 处:《石油大学学报(自然科学版)》1998年第5期83-85,89,共4页Journal of the University of Petroleum,China(Edition of Natural Science)
基 金:中国石油天然气总公司"九五"攻关项目
摘 要:以Al为钝镍组分,利用CHZ-2平衡催化裂化催化剂考察了不同原子比(钝化剂原子/重金属原子)对钝镍效果的影响。同时采用X光衍射(XRD)物相检测、程序升温还原(TPR)等实验方法研究了Al的钝镍机理。结果表明,在适当的原子比和一定的条件下,Al有一定的钝镍效果,其机理是沉积在催化剂上的NiO与活性氧化铝生成镍铝尖晶石(NiAl2O4)结构的稳定化合物,使镍处于高价态的Ni2+而难以被还原成低价态的Ni+和Ni0,从而减少了镍的脱氢活性,降低了催化剂上的积炭量。The passivation effect of Al on the FCC equilibrium catalysts CHZ-2 containing 1.0% nickel under the condition of different atomic ratios of passivator Al to heavy metal element nickel is investigated by using XRD and TPR methods. The experiment results show that the passivation of nickel by taking Al as passivator exhibits a satisfactory effect under the condition of proper atomic ratio of Al to Ni, calcinating temperature and time. It is concluded that the favorite passivation efficiency is based on the principle of forming the stable crystalline compound (NiAl 2O 4) between NiO and Al 2O 3, which is difficult to be reduced by hydrogen. When valence of nickel is controlled in the form of high valence state ( Ni 2+ ), the dehydrogenation activities of nickel decreased. Moreover, the longer the time of calcinating Al compound with Ni loading on catalyst surface is, the more the nickel aluminium spinel is produced.
分 类 号:TE624.91[石油与天然气工程—油气加工工程] TE626.25
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