Thermal Conversion of High-Sulfur Crude Oil: Optimizing Fe-Based Catalyst Concentration for Viscosity Reduction and Upgrading Efficiency

IF 5.2 3区工程技术 Q2 ENERGY & FUELS

Energy & Fuels Pub Date : 2025-02-14 DOI:10.1021/acs.energyfuels.4c0483310.1021/acs.energyfuels.4c04833

Aliia N. Khamieva, Muneer A. Suwaid*, Ameen A. Al-Muntaser, Mikhail A. Varfolomeev*, Ammar M. Al-Qaili, Irek I. Mukhamatdinov, Sergei A. Sitnov, Richard Djimasbe, Almaz L. Zinnatullin, Farit G. Vagizov, Sergey I. Kudryashov, Igor S. Afanasiev, Dmitry A. Antonenko, Alexey V. Solovyov, Georgiy V. Sansiev, Kirill A. Dubrovin and Yaroslav O. Simakov,

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Abstract

The influence of the concentration of the water-soluble Fe(NO₃)₃ catalyst precursor (from 0.2 to 0.6 wt % by metal) on the properties of heavy oil during the process of aquathermolysis at 300 °C for 24 h was studied. An increase in catalyst active sites leads to a reduction in viscosity by 58.3–85.3% relative to crude oil due to the growth of the light hydrocarbons by 9.9–19.5 wt % according to SARA analysis results. Additionally, there is an active release of gases, with CO₂ being released most intensively due to the water–gas shift reaction and hydrocarbon oxidation. One of the most significant upgrading processes is hydrodesulfurization, which occurs during the thermal decomposition of resins and asphaltenes of heavy oil. Secondary processes involving the transformation of light hydrocarbons also occur, including C–C bond breaking, as evidenced by the decrease in the amount of C₁₀–C₁₅ n-alkanes. The maximum positive effect of the catalyst is observed at 0.4 wt % by the metal concentration of Fe(NO₃)₃ because the presence of 0.6 wt % catalyst under aquathermolysis conditions intensifies oxidation and carbon formation processes.

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来源期刊

Energy & Fuels 工程技术-工程：化工

CiteScore

9.20

自引率

13.20%

发文量

1101

审稿时长

2.1 months

期刊介绍： Energy & Fuels publishes reports of research in the technical area defined by the intersection of the disciplines of chemistry and chemical engineering and the application domain of non-nuclear energy and fuels. This includes research directed at the formation of, exploration for, and production of fossil fuels and biomass; the properties and structure or molecular composition of both raw fuels and refined products; the chemistry involved in the processing and utilization of fuels; fuel cells and their applications; and the analytical and instrumental techniques used in investigations of the foregoing areas.