Regeneration of spent RFCC catalyst irreversibly deactivated by Ni, Fe, and V contained in heavy oil

Se In Cho; Kwang Seop Jung; Seong Ihl Woo

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Regeneration of spent RFCC catalyst irreversibly deactivated by Ni, Fe, and V contained in heavy oil

机译：重油中所含的镍，铁和钒不可逆地失活的废RFCC催化剂的再生

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Three different regeneration methods to recover the catalytic activity of spent resid fluid catalytic cracking (RFCC) catalyst were investigated. Carbochlorination method was the most effective to remove contaminant metals from spent equilibrium catalyst (e-cat). However, catalytic activity was not restored due to severe chlorination condition. The attempt to remove Fe, Ni, and V as a volatile corresponding metal carbonyl compound from E-cat was not effective due to low reactivity between contaminant metals and Co. The most effective method to rejuvenate spent E-cat was washing with weak acid after converting metals to a water-soluble form by calcinations. Electron probe micro analysis (EPMA) for the cross-sectional profile of Ni, Fe, and V of the regenerated catalyst particle showed that three regeneration methods removed Ni, Fe, and V uniformly throughout the catalyst particle.

机译：研究了三种不同的再生方法来恢复废渣油催化裂化（RFCC）催化剂的催化活性。碳氯化法是最有效的从废平衡催化剂（e-cat）中去除污染物金属的方法。然而，由于严重的氯化条件，催化活性没有恢复。尝试从E-cat中除去作为挥发性相应金属羰基化合物的Fe，Ni和V的方法无效，因为污染物金属和Co之间的反应性较低。使废E-cat再生的最有效方法是用弱酸洗涤后通过煅烧将金属转化为水溶性形式。对再生的催化剂颗粒的Ni，Fe和V的横截面的电子探针显微分析（EPMA）表明，三种再生方法可在整个催化剂颗粒中均匀地去除Ni，Fe和V。

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《Applied Catalysis, B. Environmental: An International Journal Devoted to Catalytic Science and Its Applications 》 |2001年第3期| 共13页
作者
Se In Cho; Kwang Seop Jung; Seong Ihl Woo;
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正文语种 eng
中图分类物理化学（理论化学）、化学物理学 ; 催化反应过程 ;
关键词
RFCC catalyst; Regeneration; Metal contamination; Demetallization;

机译：RFCC催化剂;再生;金属污染;脱金属;

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1. Regeneration of spent RFCC catalyst irreversibly deactivated by Ni, Fe, and V contained in heavy oil [J] . Se In Cho, Kwang Seop Jung, Seong Ihl Woo Applied Catalysis, B. Environmental: An International Journal Devoted to Catalytic Science and Its Applications . 2001 ,第3期

机译：重油中所含的镍，铁和钒不可逆地失活的废RFCC催化剂的再生
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3. Effect of pore diameter of Ni-Mo/Al-SBA-15 catalysts on the hydrotreating of heavy gas oil [J] . K. Chandra Mouli, Kapil Soni, Ajay Dalai Applied Catalysis, A. General: An International Journal Devoted to Catalytic Science and Its Applications . 2011 ,第1a2期

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4. Utilization of Carbon Dioxide as Regenerative Agent for Deactivated Co-Ni Steam Reforming Catalysts [C] . F. Alenazey, S.S.E.H. Elnashaie, A.A. Adesina Carbon Management Technology Conference . 2012

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5. Hydrotreatment of Athabasca bitumen derived heavy gas oil over Ni-W and Co-Mo catalysts. [D] . Diacute, az Real, Rafael Alfredo. 1988

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6. The Concept about the Regeneration of Spent Borohydrides and Used Catalysts from Green Electricity [O] . Cheng-Hong Liu, Bing-Hung Chen 2015

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Regeneration of spent RFCC catalyst irreversibly deactivated by Ni, Fe, and V contained in heavy oil

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