Microwave Radiation Impact on Heavy Oil Upgrading from Carbonate Deposits in the Presence of Nano-Sized Magnetite
The present paper reports experiments on microwave heating of a carbonate oil-containing rock sample in the presence and absence of an iron-magnetite-based nanocatalyst. It has been shown that the used catalyst improves the processes of destructive hydrogenation of resins and asphaltenes compounds i...
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2021
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oai:doaj.org-article:fc400a7f906247c3aee462382b56863b2021-11-25T18:51:32ZMicrowave Radiation Impact on Heavy Oil Upgrading from Carbonate Deposits in the Presence of Nano-Sized Magnetite10.3390/pr91120212227-9717https://doaj.org/article/fc400a7f906247c3aee462382b56863b2021-11-01T00:00:00Zhttps://www.mdpi.com/2227-9717/9/11/2021https://doaj.org/toc/2227-9717The present paper reports experiments on microwave heating of a carbonate oil-containing rock sample in the presence and absence of an iron-magnetite-based nanocatalyst. It has been shown that the used catalyst improves the processes of destructive hydrogenation of resins and asphaltenes compounds in the oil. The chemical reactions analysis demonstrated a decrease in asphaltenes content and in their molecular weight, which increases the filtration capacity of the oil fluid in the reservoir rock porous medium. Moreover, the content of non-extractable organic matter in the rock sample after experiments and after oil extraction was determined. It has been found that the absence of the catalyst causes the least increase in the content of non-extractable organic matter in the rock. This fact is related to the intensive processes of resinous-asphaltene compounds destruction especially at the level of peripheral groups which are the most condensed fraction, and hence leads to a decrease in their solubility in the organic medium and eases their adsorption on the mineral skeleton surface.Alexey V. VakhinMohammed A. KhelkhalArash TajikNikita E. IgnashevTatiana O. KrapivnitskayaNikolay Yu. PeskovMikhail Yu. GlyavinSvetlana A. BulanovaOlga V. SlavkinaKonstantin A. SchekoldinMDPI AGarticlemicrowave radiationheavy oilcatalystmagnetiteaquathermolysisoil contentChemical technologyTP1-1185ChemistryQD1-999ENProcesses, Vol 9, Iss 2021, p 2021 (2021) |
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microwave radiation heavy oil catalyst magnetite aquathermolysis oil content Chemical technology TP1-1185 Chemistry QD1-999 |
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microwave radiation heavy oil catalyst magnetite aquathermolysis oil content Chemical technology TP1-1185 Chemistry QD1-999 Alexey V. Vakhin Mohammed A. Khelkhal Arash Tajik Nikita E. Ignashev Tatiana O. Krapivnitskaya Nikolay Yu. Peskov Mikhail Yu. Glyavin Svetlana A. Bulanova Olga V. Slavkina Konstantin A. Schekoldin Microwave Radiation Impact on Heavy Oil Upgrading from Carbonate Deposits in the Presence of Nano-Sized Magnetite |
| description |
The present paper reports experiments on microwave heating of a carbonate oil-containing rock sample in the presence and absence of an iron-magnetite-based nanocatalyst. It has been shown that the used catalyst improves the processes of destructive hydrogenation of resins and asphaltenes compounds in the oil. The chemical reactions analysis demonstrated a decrease in asphaltenes content and in their molecular weight, which increases the filtration capacity of the oil fluid in the reservoir rock porous medium. Moreover, the content of non-extractable organic matter in the rock sample after experiments and after oil extraction was determined. It has been found that the absence of the catalyst causes the least increase in the content of non-extractable organic matter in the rock. This fact is related to the intensive processes of resinous-asphaltene compounds destruction especially at the level of peripheral groups which are the most condensed fraction, and hence leads to a decrease in their solubility in the organic medium and eases their adsorption on the mineral skeleton surface. |
| format |
article |
| author |
Alexey V. Vakhin Mohammed A. Khelkhal Arash Tajik Nikita E. Ignashev Tatiana O. Krapivnitskaya Nikolay Yu. Peskov Mikhail Yu. Glyavin Svetlana A. Bulanova Olga V. Slavkina Konstantin A. Schekoldin |
| author_facet |
Alexey V. Vakhin Mohammed A. Khelkhal Arash Tajik Nikita E. Ignashev Tatiana O. Krapivnitskaya Nikolay Yu. Peskov Mikhail Yu. Glyavin Svetlana A. Bulanova Olga V. Slavkina Konstantin A. Schekoldin |
| author_sort |
Alexey V. Vakhin |
| title |
Microwave Radiation Impact on Heavy Oil Upgrading from Carbonate Deposits in the Presence of Nano-Sized Magnetite |
| title_short |
Microwave Radiation Impact on Heavy Oil Upgrading from Carbonate Deposits in the Presence of Nano-Sized Magnetite |
| title_full |
Microwave Radiation Impact on Heavy Oil Upgrading from Carbonate Deposits in the Presence of Nano-Sized Magnetite |
| title_fullStr |
Microwave Radiation Impact on Heavy Oil Upgrading from Carbonate Deposits in the Presence of Nano-Sized Magnetite |
| title_full_unstemmed |
Microwave Radiation Impact on Heavy Oil Upgrading from Carbonate Deposits in the Presence of Nano-Sized Magnetite |
| title_sort |
microwave radiation impact on heavy oil upgrading from carbonate deposits in the presence of nano-sized magnetite |
| publisher |
MDPI AG |
| publishDate |
2021 |
| url |
https://doaj.org/article/fc400a7f906247c3aee462382b56863b |
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