Журналы →  Eurasian Mining →  2023 →  №2 →  Назад

PROCESSING AND COMPLEX USAGE OF MINERAL RAW MATERIALS
Название Scientific and technical fundamentals of changing the properties of hydrocarbons in conditions of optimal subsoil use
DOI 10.17580/em.2023.02.16
Автор Metaksa G. P., Alisheva Zh. N., Metaksa A. S., Fedotenko N. A.
Информация об авторе

D.A. Kunayev Mining Institute, Almaty, Kazakhstan

Metaksa G. P., Head of Laboratory, Doctor of Engineering Sciences, gmetaksa@mail.ru

Metaksa A. S., Senior Researcher

 

Al-Farabi Kazakh National University, Almaty, Kazakhstan
Alisheva Zh. N., Associate Professor

 

IPKON RAS, Mosñow, Russia
Fedotenko N. A., Candidate of Engineering Sciences

Реферат

The article provides a rationale for the development of a new geotechnology of subsoil use. It is shown that in order to change the viscosity of formation waters it is necessary to study the phenomena occurring at the interface between the phases “water-oil-quartz” fluid system in order to solve the problem of managing the properties of hydrocarbons in the conditions of natural occurrence. The results of the experimental work on physical and chemical modeling of the processes of synthesis and decomposition of hydrocarbons (HC) at the interface under conditions as close as possible to the reservoir state are presented. The obtained data indicate that under natural conditions the oil field is in a dynamic state, which responds to any external influence by changing the chemical composition of the components of the system “quartz-oil-water” [1]. The aggregate of the obtained data allows us to make the following predictions:
—the main geological feature in physical modeling of HC synthesis and decomposition processes in the “quartz-oil-water” system is the resonance correspondence of sound velocities of quartz and associated components of the interface. This is evidenced by the fact of the harmonic series of responses to an external pulse action at the frequency of water decomposition;
—the change of chemical composition in the three-component system manifests itself by the appearance of low-amplitude responses located between the frequencies of the harmonic series from the quartz particles of the three-component surface.

The results of the work were obtained during the implementation of the AP05130483 theme “Scientific and technical basis for reducing the viscosity of Kazakhstan oils, providing a significant increase in oil recovery” (2018–2020).

Ключевые слова Subsoil, hydrocarbons, spectrum, response, impact, hydrogenation
Библиографический список

1. Buktukov N. S., Metaksa G. P., Moldabaeva G. J. Тhe impact of contact potential difference of dissimilar metal son water electroconductivity. Bulgaria, Sofia. Vol. 14. pp. 51–56.
2. Vorobev A. Ye., Metaxa G. P., Bolenov Ye. M., Metaxa A. S., Alisheva Zh. N. Digitization of the mining industry. concept and modern geotechnology. News of the National Academy of Sciences of the Republic of Kazakhstan series of geology and technical sciences. 2019. Vol. 4, No. 436. pp. 121–127.
3. Metaxa G. P., Mofa N. N., Shabanova T. A., Glagolev V. A., Metaxa A. S. Fundamentals for physical modeling of structure formation processes in powder mineral technologies. Science and World. 2023. No. 5 (117). pp. 64–68.
4. Metaksa G.P., Oryngozhin E.S., Alisheva Zh.N., Metaksa A.S., Bolenov E.M. Some features of synthesis of chemical elements by means of biologically active solutions (BAR). Science and World. 2019. Vol. 1, No. 2 (66). pp. 53–55.
5. Vojtovich A. V., Djachenko V. S. well bottom zone treatment method, oil cracking method and device for above methods realization.Patent RF, No. 2285793. Applied: 15.05.2003 Published: 20.10.2006. Bulletin No.29.
6. Nadiron N. K. High-viscosity oil and natural bitumen. Unconventional processing methods. Almaty : Gylym, 2001. 415 p.
7. Moldabayeva G. Z., Metaksa G. P., Alisheva Zh. N., Theoretical bases for the implementation of the processes to reduce viscosity in the conditions of natural reservation (Article). News of the National Academy of Sciences of the Republic of Kazakhstan, Series of Geology and Technical Sciences. 2019. Vol. 5, No. 437.pp. 138–143.
8. Sherman J. B., Holditch S. A. Rept. on the SPE Gas Technology Symposium, Houston, January 23—25, 1991. SPE 21496.
9. Voneiff, G. W., Robinson В. M., Holditch S. A. 68th Ann.Techn. Conf. and Exhibition of the Society of Petroleum Engineers, Houston, Texas, 3—6 October, 1994. SPE 26664.
10. Prachkin V. G., Galyautdinov A. G. Wave technology stimulation of oil. The electronic scientific journal “Oil and Gas Business”. 2015. No. 5. pp. 215–232.
11. Mullakaev M. S., Abramov V. O., Abramova A. V., Bayazitov V. M., Prokoptsev V. O. Development of ultrasonic well complex and technology of recovery of oil wells flow-rate. Equipment and technologies for oil and gas complex. 2013. No. 2. pp. 25–31.
12. Abramov V. O., Mullakaev M. S., Esipov I. B., Prokoptsov V. O. Ultrasonic system based on piezo ceramic emitters and technology for reworking oil wells. Proceedings of Gubkin Russian State University of Oil and Gas. 2013. No. 2(271). pp. 45–54.
13. Burian U., Sorokin V. Hydroimpulsive implosion processing of Bottomhole formation zone of vertical. Inclined and horizontal wells. No. 3(053). 2015. pp. 34–38.
14. Okassa F. D., Godi A., De Simoni M., Manotti, M., Maddinelli G. A. A Nonconventional EOR technology using RF/MW heating coupled with a new patented well/reservoir interface. SPE Annual Technical Conference and Exhibition. 2010. DOI: 10.2118/134324-MS
15. Galimova R. A., Kharlampidi Kh. A. The effect of an alternating electromagnetic field on oil. Vestnik Kazanskogo technologicheskogo universiteta. 2014. Vol. 17, No. 4. pp. 266–268.
16. Grozin A. V. Global turbulence and hydrocarbon resources of Central Asian Countries. Geoeconomics of Energetics. 2022. No. 3(19). pp. 82–104.
17. 18. Stanisavljevic B., Maricic V. K., Isakov I. Development and evaluation of fracture gradient curve model: a case study of south-central Kazakhstan. International Journal of Oil, Gas and Coal Technology. 2023. Vol. 32, No. 2. pp. 126–140.
18. Alameedy U., Fatah A., Abbas A. K., Al-Yaseri A. Matrix acidizing in carbonate rocks and the impact on geomechanical properties: A review. 2023. Vol. 349. ID. 128586.
19. Marakushev S. A., Belonogova O. V. An inorganic origin of the “oil-source” rocks carbon substance. Georesursy. 2021. pp. 164–176.
20. Gusmanova A., Bekbayeva R., Koyshieva A., Koyshiev A. Oil withdrawal technological advancement for multilayer field. Iranian Journal of Chemistry and Chemical Engineering. 2022. Vol. 41, Iss. 2. pp. 521–532.
21. Nadirov N. K., Shirinskikh A. V., Nurzhanova S. B., Solodova E. V., Abilmagzhanov A. Z. New on preparation of heavy oil to its refining. The Eurasian Scientific Journal. 2019. Vol. 11, No. 3. ID. 39555179.
22. Kalybai A. A., Nadirov Nadir K., Shirinskikh A. V., Nurzhanova S. B., Solodova E. V. et al. Upgrading of processes of heavy oil raw materials. The Eurasian Scientific Journal. 2019. Vol. 11, No. 2. 82 p.
23. Yi Wang, Chenguang Zhao, Bing Wu. Study on gas migration lawandin fluencing factors of gas drainage. International Journal of Oil, Gas and Coal Technology. 2022. Vol. 31, No. 4. pp. 406–423.
24. Nadirov N. K., Shirinskih A. V., Nurzhanova S. B., Solodova E. V., Tanybaeva A. K. et al. Processing technology of heavy hydrocarbons raw by mechano-wave method. The Eurasian Scientific Journal. 2019. Vol. 11, No. 6. 91 p.

Полный текст статьи Scientific and technical fundamentals of changing the properties of hydrocarbons in conditions of optimal subsoil use
Назад