Effect of decalin as hydrogen-donor for in-situ upgrading of heavy crude oil in presence of nickel-based catalyst

Effect of decalin as hydrogen-donor for in-situ upgrading of heavy crude oil in presence of nickel-based catalyst

[Display omitted] •Role of decalin as hydrogen-donor in hydrothermal upgrading was investigated.•Conversion, releasing (dehydrogenation) and consumption of hydrogen of decalin were studied.•Decalin conversion reached 21.95% in presence of Ni-stearate water and heavy oil, at 300 °C, 72 bar and 24 h.•...

Full description

Saved in:
Bibliographic Details
Published in:Fuel (Guildford) Vol. 313; p. 122652
Main Authors: Al-Muntaser, Ameen A., Varfolomeev, Mikhail A., Suwaid, Muneer A., Saleh, Mujtaba M., Djimasbe, Richard, Yuan, Chengdong, Zairov, Rustem R., Ancheyta, Jorge
Format: Journal Article
Language:English
Published: Kidlington Elsevier Ltd 01-04-2022
Elsevier BV
Subjects:
Alkanes
Asphaltenes
Catalysts
Conversion
Crude oil
Decalin
Dehydrogenation
Heavy crude oil
Heavy petroleum
Hydrogen
Nickel
Nickel sulfide
Nickel-based catalyst
Oil
Reaction time
Resins
Sulfur
Sulfur removal
Upgrading
Upgrading, hydrogen-donor
WGS
HTU
XRD
Decalin
Nickel-based catalyst
NMR
VPO
Dehydrogenation
SARA
HD
GC
LOHC
Heavy crude oil
Upgrading, hydrogen-donor
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:[Display omitted] •Role of decalin as hydrogen-donor in hydrothermal upgrading was investigated.•Conversion, releasing (dehydrogenation) and consumption of hydrogen of decalin were studied.•Decalin conversion reached 21.95% in presence of Ni-stearate water and heavy oil, at 300 °C, 72 bar and 24 h.•High decalin conversion, for the most part, is provided by the tetralin formation and a small amount of naphthalene.•Ni-stearate promoted both the dehydrogenation (conversion) of decalin as well as upgrading performance of heavy oil. The effect of decalin as hydrogen-donor on the catalytic and non-catalytic hydrothermal upgrading of heavy crude oil was studied. The donating (dehydrogenation) capacity and conversion of decalin in presence of nickel-based catalyst (nickel (II) stearate) were evaluated. In addition, the changes in composition of dehydrogenated products, release and consumption of hydrogen during decalin dehydrogenation in presence and absence of Ni-stearate and heavy crude oil were studied. All of the upgrading and dehydrogenation experiments were carried out at 300 °C, 72 bar (1044.27 psi) and 24 h of reaction time. The upgrading of heavy crude oil in presence of decalin and Ni-stearate exhibited a good performance for conversion of decalin as well as for promoting the in-situ upgrading of heavy crude oil. The maximum decalin conversion level was found to be 21.95% in the presence heavy crude oil, water and nickel stearate. Ni-stearate was mainly in-situ transformed into particles of NiO and Ni3S2, which took the role of active phases for catalyzing the dehydrogenation of decalin and promoting heavy crude oil upgrading. The use of decalin as a hydrogen-donor together with catalyst resulted in high viscosity reduction (69.2%), increase of saturates content (especially low molecule weight alkanes C10-C20), decrease of resins and asphaltenes content, and removal of sulfur and nitrogen.
ISSN:0016-2361
1873-7153
DOI:10.1016/j.fuel.2021.122652