摘要
利用催化裂化平衡催化剂CHZ 2 考察了稀土元素RE的钝镍性能。实验结果表明,适量的RE钝镍剂能明显降低催化裂化反应的比氢气量和比积炭值,提高汽油收率,具有较明显的钝镍效果。程序升温还原实验和XRD物相检测发现,在FCC 再生温度( 约700 ℃) 下,RE和沉积在催化剂表面上的高价镍反应生成RENiO3 晶相。RENiO3 中的镍在FCC 反应温度( 约500 ℃)下不易被氢气还原,这就有效地封闭了镍,抑制了镍的脱氢生焦活性。NH3 - 程序升温还原测定表明,当RE与镍的原子比大于0 .4 时,催化剂表面上的中强酸和强酸总量降低,导致烃类裂化活性下降,当RE与镍的原子比为0 .3~0 .4 时。
A nickel passivator taking rare earth (RE) element as an effective component has been found to be able to reduce the yields of hydrogen and coke. The mechanism of nickel passivation was investigated by XRD, TPR and NH\-3\|TPD methods. The experiment results show that under the condition of FCC regeneration, a stable compound RENiO\-3 forms by chemical reaction of RE and depositing Ni\+\{2+\} and Ni\+\{3+\} on the surface of FCC catalyst. RENiO\-3 is more difficult to be reduced by hydrogen than NiO under the condition of FCC reaction. Therefore, the dehydrogenation and coke formation activity of FCC catalyst is diminished. At the same time, the migration of nickel to the acid sites of FCC catalyst is inhibited. The gasoline yield as well as the number of acid sites of catalyst would decrease, if the atomic ratio of RE to nickel is more than 0.4. Therefore, the optimum atomic ratio of RE to nickel is from 0.3 to 0.4.
出处
《石油大学学报(自然科学版)》
CSCD
1999年第5期74-76,共3页
Journal of the University of Petroleum,China(Edition of Natural Science)
基金
中国石油天然气集团公司"九五"科技攻关项目
关键词
催化裂化
钝化剂
稀土元素
抗镍机理
重油
catalytic cracking
passivator
rare earth element
mechanism of nickel passivation
