O.M. Mirsaetov, S.B. Kolesova, K.B. Akhmadullin, I.B. Akhmadullin
METHOD OF DETERMINING THE AGGREGATIVE STABILITY OF OIL-WATER EMULSION IN WELL PRODUCTS
Annotation. A review of methods for determining the aggregative stability of oil-water emulsion (water-in-oil emulsion, water-oil emulsion, oil-water sludge) is carried out. It is noted that all known methods of determining the aggregative stability of oil-water emulsion are based on its destruction and study of changes in parameters characterizing the properties of oil-water emulsion. The groups of methods based on the study of changes in parameters characterizing the properties of oil-water emulsion, as well as on the measurement of the content of water released from the emulsion as a result of its stratification are singled out. The advantages and disadvantages of the groups of selected methods are analyzed. The advantages of the methods based on measuring the content of aggregate-unstable and aggregate-stable water are revealed. The generalized structure of the implementation of the process of determining the aggregative stability of oil-water emulsion, which includes sampling, measuring the total proportion of water in the sample containing aggregate-unstable water and aggregate-stable water during its stratification, as well as calculations of the aggregative stability of oil-water emulsion, is proposed. Analysis and generalization of research results of methods of oil-water mixtures destruction by the type of applied energy in determining the content of aggregate-stable water allowed the authors to propose the use of electric fields for stratification of oil-water emulsion, to identify the conditions and parameters of exposure of oil-water emulsion, to develop an experimental setup for determining the number of cycles of exposure of oil-water mixture in water under conditions of water treatment with direct electric current to the formation of the oil-water interface, to propose and substantiate the mechanism of mixture destruction. The possibility of application of the proposed method in the choice of technologies of influence on oil reservoirs for intensification of oil production and increase of oil recovery, as well as for evaluation of efficiency of various oil production technologies and their improvement is shown.
Keywords: aggregative stability, water-oil mixture, oil, oxidation-reduction potential, emulsion.
For citation: Mirsaetov O.M., Kolesova S.B., Akhmadullin K.B., Akhmadullin I.B. [Method of determining the aggregative stability of oil-water emulsion in well products] Upravlenie tekhnosferoi, 2024, vol. 7, issue 1. (In Russ.). Available at: https://technosphere-ing.ru/ рр. 95–115. DOI: 10.34828/UdSU.2024.18.86.008.
REFERENCES
1. Pribush A.G. Opredelenie agregativnoi ustoichivosti emul'sii po skorosti koalestsentsii kapel' elektrolita v organicheskoi srede [Determination of the aggregative stability of emulsions by the rate of coalescence of electrolyte droplets in an organic medium]. Teoreticheskie osnovy khimicheskikh tekhnologii [Theoretical foundations of chemical technologies]. 1990, vol. 24, no. 6, pp.827–832. (In Russ.).
2. Belyakov V.L. Avtomatizatsiya promyslovoi podgotovki nefti i vody. [Automation of field preparation of oil and water]. Moscow: Nedra, 1988, 232 p. (In Russ.).
3. Esel'son M.P., Kucherov Ya.M., Yanovskii V.Yu. Spektral'nye metody analiza. [Spectral methods of analysis]. Moscow: VNIIOENG Publ., 1977, 60 p. (In Russ.).
4. Sposob opredeleniya agregativnoi ustoichivosti vodoneftyanoi emul'sii [Method for determining the aggregate stability of an oil-water emulsion]: patent 2106629, RF, no. 96113916/25; Verevkin A.P., Khafizov A.R., Ismakov R.M.; appl. 04.07.1996; publ. 10.03.1998. 14 p.
5. GOST 2517-85. Neft' i nefteprodukty. Metody otbora prob. [Oil and petroleum products. Sampling methods]. Moscow: Standartinform, 2010, 27 p.
6. GOST R8.1007–2022. Ob"emnaya i massovaya dolya vody v neftegazavodyanoi smesi. Kombinirovannyi metod izmereniya. [The volume and mass fraction of water in the oil and gas mixture. Combined measurement method]. Moscow: Standartinform, 2022, 20 p.
7. GOST R 54284 Nefti syrye. Opredelenie vody kulonometricheskim titrovaniem po Karlu Fisheru. [Crude oils. Determination of water by coulometric titration according to Karl Fischer]. Moscow: Standartinform, 2019, 11 p.
8. GOST 2477–65. Metod opredeleniya soderzhaniya vody v neftyakh i nefteproduktakh. [A method for determining the water content in oils and petroleum products]. Moscow: Standartinform, 2008, 9 p.
9. GOST 2477–2014. Neft' i nefteprodukty. Metod opredeleniya soderzhaniya vody. [Oil and petroleum products. A method for determining the water content]. Moscow: Standartinform, 2018, 12 p.
10. Verevkin A.P. (et al.). Otsenka effektivnosti i optimizatsii raskhodovaniya deemul'gatorov pri promyslovoi podgotovke nefti. [Evaluation of the effectiveness and optimization of the use of demulsifiers in field oil treatment], EI Ser.: Tekhnika i tekhnologiya dobychi nefti i obustroistva neftyanykh mestorozhdenii [Technique and technology of oil production and development of oil fields]. Moscow: VNIIOENG, 1991, Issue 4. pp. 38–47. (In Russ.).
11. AGTM D4007-11(2016) e1. Standard test method for water and sediment in crude oil by the centrifuge method (Laboratory Procedure).
12. Vinogradov V.M. Osnovnye svoistva i printsipy razrusheniya neftyanykh emul'sii. [Basic properties and principles of destruction of petroleum emulsions]. Moscow, MINKH GP, 1974. (In Russ.).
13.Miftakhova G.M., Bykovskii N.A. Sovershenstvovanie tekhnologii podgotovki neftepromyslovykh stochnykh vod dlya zavodneniya [Improving the technology of oilfield wastewater treatment for flooding]. Ashirovskie chteniya: tezisy dokladov Mezhdunarodnoi nauchno–prakticheskoi konferentsii [Ashirov readings: abstracts of the International Scientific and Practical Conference]. Samara: SamSTU Publ., 2002, p. 44. (In Russ.).
14. Sposob opredeleniya agregativnoi ustoichivosti vodoneftyanoi smesi (varianty): patent 280288, RF, № 2022135454. [Method for determining the aggregate stability of an oil-water mixture (options): patent 280288, RF, no. 2022135454], Mirsaetov O.M., Akhmadullin K.B., Shumikhin A.A., Kolesova S.B.; appl. no.30.12.2022; publ. 19.07.2023, Bul. 20, 17 p.
About the Authors
Mirsaetov Oleg Marsimovich
Doctor of Technical Sciences, Professor, M.S. Gutseriev Institute of Oil and Gas, Federal State Budgetary Educational Institution of Higher Education "Udmurt State University", 426034, Universitetskaya str., 1, Izhevsk, Russia.
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Kolesova Svetlana Borisovna
Candidate of Economic Sciences, Associate Professor, Director, M.S. Gutseriev Institute of Oil and Gas, Federal State Budgetary Educational Institution of Higher Education "Udmurt State University", 426034, Universitetskaya str., 1, Izhevsk, Russia.
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Akhmadullin Kamil Bulatovich
Associate Professor, M.S. Gutseriev Institute of Oil and Gas, Federal State Budgetary Educational Institution of Higher Education "Udmurt State University", 426034, Universitetskaya str., 1, Izhevsk, Russia. E-mail.ru:Адрес электронной почты защищен от спам-ботов. Для просмотра адреса в вашем браузере должен быть включен Javascript.
Akhmadullin Ildar Bulatovich
Candidate of Technical Sciences, Associate Professor, M.S. Gutseriev Institute of Oil and Gas, Federal State Budgetary Educational Institution of Higher Education "Udmurt State University", 426034, Universitetskaya str., 1, Izhevsk, Russia.
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