Thermogravimetric parameters of the oxidation of organic matter and asphaltenes from the rocks of the Permian deposits of heavy oil field before and after catalytic hydrothermal treatment

Thermogravimetric parameters of the oxidation of organic matter and asphaltenes from the rocks of the Permian deposits of heavy oil field before and after catalytic hydrothermal treatment

•Revealed oxidation features of OM and asphaltenes from rocks of the Permian deposits.•The efficiency of metal complex in processes of transformation of rock‘s OM is shown.•By DSC method is shown a decrease in initial temperature of asphaltenes oxidation in catalytic experiment.•Revealed a decrease...

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Bibliographic Details
Published in:Fuel (Guildford) Vol. 313; p. 122641
Main Authors: Mikhailova, A.N., Kayukova, G.P., Varfolomeev, M.A., Emelyanov, D.A.
Format: Journal Article
Language:English
Published: Kidlington Elsevier Ltd 01-04-2022
Elsevier BV
Subjects:
Activation energy
Aromatic hydrocarbons
Asphaltenes
Carbon dioxide
Carboxylates
Catalysts
Chemical reactions
Composition
Copper
Deposits
Differential scanning calorimetry
Exothermic reactions
Heavy oil
High temperature
Hydrothermal treatment
Iron
Low temperature
Mineral composition
Oil
Oil and gas fields
Oil fields
Oil oxidation
Organic matter
Oxidation
Parameters
Permian
Reaction kinetics
Resins
Rocks
Saturated hydrocarbons
Temperature effects
Thermal analysis
Transition metals
Differential scanning calorimetry
Organic matter
Asphaltenes
Thermal analysis
Oil oxidation
Activation energy
Heavy oil
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Summary:•Revealed oxidation features of OM and asphaltenes from rocks of the Permian deposits.•The efficiency of metal complex in processes of transformation of rock‘s OM is shown.•By DSC method is shown a decrease in initial temperature of asphaltenes oxidation in catalytic experiment.•Revealed a decrease in activation energy of asphaltenes in catalytic hydrothermal experiments.•Thus oil-bearing potential of Permian deposits can be realized using by catalytic thermal methods. In this work, on the example of rock samples from Permian deposits of the heavy oil field from the depth interval 117.5–188.6 m, a comprehensive study of the composition of oil-saturated rocks, as well as thermogravimetric parameters and kinetics of oxidation of organic matter (OM) and extracted asphaltenes before and after catalytic hydrothermal treatment was carried out of the rocks. It was shown that rocks with different mineral composition, OM content, and group composition of oil extracts also have different quantitative characteristics of the thermal effect in the processes of OM oxidation. According to the DSC data in the range of 20–600 °C in air atmosphere, several exothermic effects of chemical reactions of OM at stages low-temperature (LTO) and high temperature oxidation (HTO) oxidation were fixed indicating various destructive processes. By the TG/DTG method was shown that asphaltenes, regardless of the chemical nature of OM, have a similar and almost identical set of mass loss peaks. Catalytic hydrothermal treatment of the rock samples at 300 °C in CO2 media in the presence of a catalytic composition based on transition metal carboxylates (Fe, Co and Cu) led to a significant increase in the content of saturated and aromatic hydrocarbons in produced oil extracts due to the intense destruction of resins and asphaltenes. The presence of the catalyst composition in the reaction system leads to a decrease in the initial temperature of asphaltenes oxidation by almost 10 °C, as well as to a decrease in the activation energy by more than 1.5 times as compared to asphaltenes from the original rock. The research results show that the use of thermal and catalytic methods is promising for the successful implementation of the residual oil-bearing potential of productive strata of the Permian deposits of Tatarstan.
ISSN:0016-2361
1873-7153
DOI:10.1016/j.fuel.2021.122641