参考文献:1.S. N. Khadzhiev, I. M. Gerzeliev, V. M. Kapustin, et al., Pet. Chem. 51, 32 (2011).CrossRef 2.I. M. Gerzeliev, K. I. Dement’ev, and S. N. Khadzhiev, Pet. Chem. 55, 481 (2015).CrossRef 3.I. M. Gerzeliev, R. M. Arslanov, and V. M. Kapustin, Tekhnol. Nefti Gaza, No. 4, 8 (2015). 4.D. Wallenstein, M. Seese, and X. Zhao, Appl. Catal., A 231, 227 (2002).CrossRef
作者单位:I. M. Gerzeliev (1) R. M. Arslanov (1) V. M. Kapustin (2) G. N. Bondarenko (1) S. N. Khadzhiev (1)
1. Topchiev Institute of Petrochemical Synthesis, Russian Academy of Sciences, Moscow, Russia 2. OAO All-Russia Research and Design Institute of Oil-Refining and Petrochemical Industry, Moscow, Russia
刊物类别:Chemistry and Materials Science
刊物主题:Chemistry Industrial Chemistry and Chemical Engineering Russian Library of Science
出版者:MAIK Nauka/Interperiodica distributed exclusively by Springer Science+Business Media LLC.
ISSN:1555-6239
文摘
The effect of the concentration of nickel and cobalt precursors on the catalytic cracking performance has been studied. A FTIR study of the catalyst surface after cracking in the presence of nickel and cobalt precursors has been conducted. It has been shown that the surface of industrial catalysts can be in situ modified with compounds of Group VIII metals in the acid-catalyzed conversion of a vacuum distillate. Keywords catalytic cracking hydrotreated vacuum distillate nickel cobalt FTIR analysis