The Researches on Upgrading of Heavy Crude Oil by Catalytic Aquathermolysis Treatment Using a New Oil-Soluble Catalyst

Wen Long Qin; Zeng Li Xiao

doi:10.4028/www.scientific.net/AMR.608-609.1428

Paper Titles

Preparation of Y Zeolite-Based Catalysts and their Catalytic Cracking Performances of Venezuelan Heavy Oil
p.1407

XAS Study on Calcination Effect of Silica Supported Cobalt Catalysts for Fischer-Tropsch Synthesis
p.1413

Integrated Study on Syngas-to-Synthetic Natural Gas (SNG) Process
p.1419

Heavy Oil Gathering Process Test Research
p.1424

The Researches on Upgrading of Heavy Crude Oil by Catalytic Aquathermolysis Treatment Using a New Oil-Soluble Catalyst
p.1428

The Synthesis of Cross-Linked Poly Aspartic Acid and Study on Control of the Calcium Carbonate Crystal Morphology
p.1433

Determining the Engine Oil’s TBN by Semi-Derivative Voltammetry
p.1437

The Effect of Pressure Disturbance on the Formation Process of Propane Hydrate
p.1441

Modeling Analysis of Shell, Texaco Gasification Technology’s Effects on Water Gas Shift for Fischer-Tropsch Process
p.1446

HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 608-609The Researches on Upgrading of Heavy Crude Oil by...

The Researches on Upgrading of Heavy Crude Oil by Catalytic Aquathermolysis Treatment Using a New Oil-Soluble Catalyst

Abstract:

The aquathermolysis of Shengli heavy oil during steam stimulation was studied by using a new oil-soluble catalyst for the reaction in this paper. The laboratory experiment shows that the viscosity reduction ratio of heavy oil is over 75% at the circumstances of 200°C, 24 hs, 0.3 % catalyst solution. The viscosity of upgraded heavy oil is changed from 25306mPa•s to 6175mPa•s at 50°C. The chemical and physical properties of heavy oil both before and after reaction were studied by using column chromatography (CC) analysis and elemental analysis (EL). The percentage of saturated hydrocarbon、aromatic hydrocarbon and H/C increased, and resin、asphalt and the amount of element of S,O and N decreased after the aquathermolysis. The changes of the composition and structure of the heavy oil can lead to the viscosity reduction and the improvement the quality of heavy oil. The results are very useful for the popularization and application of the new technology for the in situ upgrading of heavy oil by aquathermolysis.