2022
DOI: 10.3390/pr10050914
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The Visbreaking of Heavy Oil in Supercritical Cyclohexane: The Effect of H-Donation

Abstract: The performance of heavy oil visbreaking in supercritical cyclohexane (SCC6H12) was evaluated, followed by a comparison with its reaction in supercritical benzene (SCC6H6). The dealkylation-based viscosity reduction in the SCC6H12 was accelerated by improving the diffusivity, through which a product viscosity (80 °C) as low as 0.5 Pa.s was readily obtained by visbreaking at 380 °C for 5 min. A competition between dealkylation and condensation took place throughout the visbreaking process. As the reaction proce… Show more

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Cited by 3 publications
(1 citation statement)
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“…Accordingly, a supercritical hydrocarbon exhibiting a hydrogen supply capability serves as a promising solvent for heavy oil pyrolysis. Ding et al confirmed that supercritical cyclohexane (SC-cyclohexane, T c = 280.4 °C, P c = 4.05 MPa) plays a certain role in the reaction through H supply. SC-cyclohexane, a hydrogen donor and reaction solvent, is more suitable than SCW and SC-C 6 H 6 in reducing the viscosity of heavy oil, increasing the H/C atomic ratio, and inhibiting coke formation.…”
Section: Introductionmentioning
confidence: 99%
“…Accordingly, a supercritical hydrocarbon exhibiting a hydrogen supply capability serves as a promising solvent for heavy oil pyrolysis. Ding et al confirmed that supercritical cyclohexane (SC-cyclohexane, T c = 280.4 °C, P c = 4.05 MPa) plays a certain role in the reaction through H supply. SC-cyclohexane, a hydrogen donor and reaction solvent, is more suitable than SCW and SC-C 6 H 6 in reducing the viscosity of heavy oil, increasing the H/C atomic ratio, and inhibiting coke formation.…”
Section: Introductionmentioning
confidence: 99%