Effect of blending on hydrotreating reactivities of atmospheric residues: Synergistic effects

•Different synergistic effects were found in hydrotreating the blends of two ARs.•The synergistic effects were attributed to the change of SARA fractions in blends.•A synergistic effect index was proposed.•Composition of product from two AR blends can be estimated on the developed models. In order t...

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Bibliographic Details
Published in:Fuel (Guildford) 2021-06, Vol.293, p.120429, Article 120429
Main Authors: Cui, Qingyan, Ma, Xiaoliang, Nakano, Koji, Nakabayashi, Koji, Miyawaki, Jin, Al-Mutairi, Adel, Marafi, Abdulazeem M.J., Al-Otaibi, Ahmed M., Yoon, Seong-Ho, Mochida, Isao
Format: Article
Language:English
Subjects:
Aromatic compounds
Atmospheric models
Atmospheric residue
Blending
Blending effects
Catalysts
Composition
Hydrodesulfurization
Hydrotreatment
Mixtures
Residues
Synergistic effect
Synergy
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Summary:•Different synergistic effects were found in hydrotreating the blends of two ARs.•The synergistic effects were attributed to the change of SARA fractions in blends.•A synergistic effect index was proposed.•Composition of product from two AR blends can be estimated on the developed models. In order to clarify the effect of blending heavy atmospheric residues (AR) and light AR on reactivities for hydrodesulfurization (HDS), hydrodenitrogenation (HDN), hydrodevanadium (HDV), hydrodenickel (HDNi), hydrodeasphaltenes (HDAsp) and hydrodeconradson-carbon-residue (HDCCR) in hydrotreating process, hydrotreating of the blends from two ARs at different ratios was conducted in a fixed-bed unit at 370 °C under a H2 pressure of 13.5 MPa over a set of commercial HDM and HDS catalysts. The compositions and properties of the two ARs and their blends as well as their hydrotreated products were analyzed and compared in detail. A positive synergistic effect of the blending was found for HDS, HDN and HDCCR, while a negative synergistic effect of the blending was observed for HDAsp, HDV and HDNi. A synergistic effect index (ηi,s) was proposed to describe quantitatively the extent of the blending synergistic effect. The observed synergistic effects can be attributed to change of the aromatics-to-saturates ratio in the blends. In addition, composition and property of the hydrotreated products from the blending feedstocks with different blending ratios were well estimated on the basis of the developed models with an average relative deviation less than 1.5 %.
ISSN:0016-2361
1873-7153
DOI:10.1016/j.fuel.2021.120429