The Impact of the Initiators on Heavy Oil Oxidation in Porous Media during In Situ Combustion for In Situ Upgrading Process

Mehrabi-Kalajahi, Seyedsaeed; Varfolomeev, Mikhail A.; Sadikov, Kamil G.; Mikhailova, Anastasia N.; Feoktistov, Dmitriy A.

doi:10.1021/acs.energyfuels.3c05068

Energy Fuels

2024

DOI: 10.1021/acs.energyfuels.3c05068

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The Impact of the Initiators on Heavy Oil Oxidation in Porous Media during In Situ Combustion for In Situ Upgrading Process

Seyedsaeed Mehrabi-Kalajahi,

Mikhail A. Varfolomeev,

Kamil G. Sadikov

et al.

Abstract: In situ combustion (ISC) is an effective way to recover heavy oils, where initiation at an early stage of the lowtemperature oxidation (LTO) process is crucial. A porous medium thermo-effect cell (PMTEC) was applied to conduct oxidation experiments on heavy oil in porous medium in the presence of several different initiators. The addition of initiators promoted heavy oil oxidation, resulting in reduced peak temperatures and reaction intervals for LTO. According to our results, oleic acid is the most effective … Show more

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Improving the in-situ upgrading of extra heavy oil using metal-based oil-soluble catalysts through oxidation process for enhanced oil recovery

Nejad Zare,

Mehrabi-Kalajahi,

Varfolomeev

et al. 2024

J Petrol Explor Prod Technol

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The demand for fuel from unconventional sources is increasing all over the world, however, there are still special and strict regulations regarding the methods of enhanced oil recovery as well as the content of the oil produced, including the amount of sulfur. In-situ combustion (ISC) is an attractive thermal method to enhance oil recovery and in-situ upgrading process. In this work, copper (II) oleate and copper (II) stearate were used for the oxidation of extra heavy oil with high sulfur content in the ISC process using a self-designed porous medium thermo-effect cell (PMTEC) and visual combustion tube. Using PMTEC the catalytic performances of the synthesized oil-soluble copper (II) oleate and copper (II) stearate and kinetic parameters such as activation energy using Ozawa-Flynn-Wall method were studied. The X-ray diffraction (XRD) and high-resolution field emission scanning electron microscopy were used to examine the characteristics of in-situ synthesized CuO nanoparticles during oxidation. As shown, the presence of oil-soluble copper (II) stearate and copper (II) oleate reduced oil viscosity from 9964 to 8000 and 6090 mPa˙s, respectively. Following ISC process in porous media in the presence of copper (II) oleate, the high sulfur extra heavy oil upgraded, and its sulfur content decreased from 10.33 to 6.79%. Additionally, SARA analysis revealed that asphaltene and resin content decreased in the presence of oil-soluble catalysts. During the oxidation reaction, homogeneous catalyst decomposed into nanoparticles, and heterogeneous catalyst is distributed uniformly in porous media and played an active role in the catalytic process. It should be noticed that, these kind of oil-soluble catalysts can be novel and highly potential candidates for initiation and oxidation of extra heavy oil in order to decrease the viscosity, enhanced oil recovery and production of the upgraded oil. Graphical abstract

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Improving the in-situ upgrading of extra heavy oil using metal-based oil-soluble catalysts through oxidation process for enhanced oil recovery

Nejad Zare,

Mehrabi-Kalajahi,

Varfolomeev

et al. 2024

J Petrol Explor Prod Technol

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show abstract

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The Impact of the Initiators on Heavy Oil Oxidation in Porous Media during In Situ Combustion for In Situ Upgrading Process

Cited by 1 publication

References 49 publications

Improving the in-situ upgrading of extra heavy oil using metal-based oil-soluble catalysts through oxidation process for enhanced oil recovery

Improving the in-situ upgrading of extra heavy oil using metal-based oil-soluble catalysts through oxidation process for enhanced oil recovery

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