Pressure distribution in the oil reservoir in a two-dimensional plane

Moldabayeva, G.Zh.; Imansakipova, Z. B; Suleimenova, R.T.; Buktukov, N.S.; Imansakipova, B. B

doi:10.33271/nvngu/2023-1/038

Cited by 2 publications

(3 citation statements)

References 8 publications

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“…The disadvantages I ДОБЫЧА of the method include the impossibility of introducing large amounts of heat into the formation in a short period of time. This is due to the low values of effective thermal conductivity of rocks [2,3]. In this regard, during conductive heating, the radius of the heated zone, as a rule, does not exceed 1 m.…”

Section: теоретическое обоснование теплового метода -пароциклической ...mentioning

confidence: 99%

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Theoretical Justification of the Thermal Method – Steam Cyclic Treatment of Wells of the X Deposit

MOLDABAYEVA,

KOZLOVSKIY,

SULEIMENOVA

et al. 2024

NiG

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Enhanced oil recovery from active fields is equivalent to the discovery of new fields, making this issue critical to all oil-producing countries around the world. Of course, among all modern methods of increasing oil recovery from reservoirs, thermal methods are the most technically and technologically prepared. They make it possible to extract oil with a viscosity of up to 100 MPa and at the same time increase the final oil recovery by 30-50%. In particular, the thermal steam method is widely used both in fields in the CIS countries and abroad. The main factors that determine the growth of oil production using thermal methods include: Availability of significant resources of high-viscosity oil. Application of highly effective technologies for influencing oil deposits. Availability of necessary heat and power equipment. Use of heat-resistant equipment for wells and on the surface. Effective control and regulation of processes inside wells. The widespread development of methods for thermal oil production is associated with the solution of a complex set of scientific and technical problems. Among these tasks, special attention is paid to: The study of oil recovery mechanisms in various geological and physical conditions. The determination of opportunities for effective use of the features of the geological structure of specific fields. The development of combined methods for increasing oil recovery, including thermal methods and others, in order to improve technological processes and achieve high oil recovery rates at the level of 50-60%. The aim of this article is to analyze and justify the choice of a specific thermal oil production technology, namely the method of steam-cyclic well treatment, which is especially relevant for the production of high-viscosity oils.

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Section: теоретическое обоснование теплового метода -пароциклической ...mentioning

confidence: 99%

“…СӘТБАЕВ УНИВЕРСИТЕТІ, Қазақстан Республикасы, 050013, Алматы қ., Сәтбаев көш., 222 САФИ ӨТЕБАЕВ АТЫНДАҒЫ АТЫРАУ МҰНАЙ ЖӘНЕ ГАЗ УНИВЕРСИТЕТІ, Қазақстан Республикасы, 060027, Атырау қ., Баймуханов көш., 45А…”

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Theoretical Justification of the Thermal Method – Steam Cyclic Treatment of Wells of the X Deposit

MOLDABAYEVA,

KOZLOVSKIY,

SULEIMENOVA

et al. 2024

NiG

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“…As a result, the current transition to the development of deposits in a natural mode requires a revision of the approved oil recovery factors, based on recalculated recoverable reserves. In my dissertation, I will calculate the oil recovery coefficient using the statistical method and the method of the scientist V. Martos, and at the end I will conduct a comparison analysis [1][2][3].…”

Section: прогнозирование кин методом мартоса и статистическим методом...mentioning

confidence: 99%

Forecasting Orf by the Martos Method and the Statistical Method Using the Example of Deposit X

MOLDABAYEVA,

KOZLOVSKIY,

SULEIMENOVA

et al. 2024

NiG

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The article discusses the effectiveness of the Martos method and the statistical method for predicting oil recovery factor using the example of the X field. Today's values of oil recovery factors (ORF) for Triassic horizons were determined taking into account the active water pressure regime with artificial maintenance of reservoir pressure (RPM) and the drilling of 16 new production wells. This approach required a revision of ORF values due to the transition to natural reservoir development and the cessation of maintaining reservoir pressure by water injection. The failure to drill new wells has also had a significant impact on ORF. At current production, when 44.7% of the field's reserves have been extracted, and taking into account the remaining reserves, the development period of the field will not exceed 42 years. It is also planned to increase the number of hydraulic engineering measures to expand drainage zones and involve additional reserves in development. Having compared the two methods for calculating ORF, we can conclude that although V.N. Martos’ method is based on reservoir parameters, and the statistical method uses historical data, the results of their calculations differ slightly.

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Pressure distribution in the oil reservoir in a two-dimensional plane

Cited by 2 publications

References 8 publications

Theoretical Justification of the Thermal Method – Steam Cyclic Treatment of Wells of the X Deposit

Theoretical Justification of the Thermal Method – Steam Cyclic Treatment of Wells of the X Deposit

Forecasting Orf by the Martos Method and the Statistical Method Using the Example of Deposit X

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