Issue 18, 2022

Understanding catalyst deactivation during the direct cracking of crude oil

Abstract

The increasing demand for base chemicals i.e., ethylene and propylene, along with the expected peak in gasoline and fuels demand, are stirring intense research into refineries to be built around processes that maximize the production of chemicals (oil to chemicals, OTC, processes). One of the main challenges at hand for OTC technologies is the formulation of appropriate catalysts able to handle the wide boiling point of the feed and to withstand continuous operation at industrial scale. Hydrothermal degradation, coke deposition and the presence of impurities, such as metals, sulfur and nitrogen containing species, in the feedstock affect catalyst lifetime, activity and selectivity. In this work, we evaluate long term catalyst stability along with the main causes of reversible and irreversible catalyst deactivation. Our results demonstrate that formulation prevents, to a large extent, the degradation of the zeolitic components of the catalyst. Metal deposition, on the other hand, results in a slight decrease in activity along with partial changes in selectivity patterns. The main reasons behind these changes are discussed in detail with the help of extensive characterization.

Graphical abstract: Understanding catalyst deactivation during the direct cracking of crude oil

Supplementary files

Article information

Article type
Paper
Submitted
24 Jun 2022
Accepted
02 Aug 2022
First published
03 Aug 2022
This article is Open Access
Creative Commons BY-NC license

Catal. Sci. Technol., 2022,12, 5657-5670

Understanding catalyst deactivation during the direct cracking of crude oil

M. A. Alabdullah, T. Shoinkhorova, A. Dikhtiarenko, S. Ould-Chikh, A. Rodriguez-Gomez, S. Chung, A. O. Alahmadi, I. Hita, S. Pairis, J. Hazemann, P. Castaño, J. Ruiz-Martinez, I. Morales Osorio, K. Almajnouni, W. Xu and J. Gascon, Catal. Sci. Technol., 2022, 12, 5657 DOI: 10.1039/D2CY01125E

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