Аннотация и ключевые слова
Аннотация (русский):
The article presents the results of modeling a three-dimensional digital geological filtration model. The substantiation of the volumetric grids of the model is given and the analysis of the distribution of filtration-capacitance properties of layers and models of reservoir saturation with fluids is carried out. Based on the constructed three-dimensional model of Nizovsky field, the reliability of revealing hydrocarbon reserves at the field has been confirmed.

Ключевые слова:
Digital three-dimensional geological model, filtration and capacitance properties, porosity coefficient, reservoir thickness, well logging
Текст
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Список литературы

1. Basniev, K. S., I. N. Kochina, and V. M. Maksimov (1993), Underground hydromechanics: textbook for universities, 416 pp., Nedra, Moscow (in Russian).

2. Baturin, A. Y. (2007), Geological and technological justification of the design of the development of oil and gas-oil fields, candthesis, Tyumen (in Russian).

3. Buckley, S. E., and M. C. Leverett (1942), Mechanism of Fluid Displacement in Sands, Transactions of the AIME, 146(01), 107-116, https://doi.org/10.2118/942107-g.

4. Davydov, A. A., A. M. Pligin, I. A. Levin, and M. A. Istomova (2017), Accuracy estimation of the dynamic analysis of oil and gas-bearing complex in Samara region, International Research Journal, (08(62)), https://doi.org/10.23670/IRJ.2017.62.077 (in Russian).

5. Expert commission of the Volga-Ural branch of the FBU GKZ (2019), Technological project for the development of the Nizovsky oil field in the Samara region. The user of the subsoil of Samaraneftegaz JSC (in Russian).

6. Gaisina, G. F. (2010), Geologic modeling the Malyshev field oil pool with using the Norway program RMS 9.0.7, Neftegasovaâ geologiâ. Teoriâ i practika, 5 (in Russian).

7. Gladkov, E. A., and E. E. Gladkova (2011), Methodology for creating a three-dimensional geological model of technology in the fields with a history of the development over 50 years, Bureniye i neft’, (1), 32-35 (in Russian).

8. Meretukov, M. A., R. A. Toroyan, M. K. Bedanokov, R. B. Kohuzheva, and A. M. Artamonov (2023), Assessment of the quality of constructing a geological filtration model of the Nizovsky deposit formation of the Samara region, in FUNDAMENTAL AND APPLIED ASPECTSOF GEOLOGY, GEOPHYSICS AND GEOECOLOGY USING MODERN INFORMATION TECHNOLOGIES. VII International Scientific and Practical Conference. Part 2, pp. 66-73, Kucherenko V.O., Maykop (in Russian).

9. Raspopov, A. V., and V. A. Mordvinov (2010), Designing the development of oil and gas fields: a textbook, 87 pp., Perm State Technical University, Perm (in Russian).

10. Tikhomirova, E. A. (2020), Methods of oil saturation modeling and their application in IRAP RMS, Herald of Tver State University. Series: Geography and Geoecology, (1(29)), 69-78, https://doi.org/10.26456/2226-7719-1-2020-69-78 (in Russian).

11. Toroyan, R. A., and M. A. Meretukov (2023), Analysis of Circulation Losses Behavior during Wells Drilling at the Nizovskoye Field in the Samara Region, Science and Technology in the Gas Industry, 1(93), 22-29 (in Russian).

12. Yagafarov, A. K., I. I. Kleshchenko, and V. A. Korotenko (2011), Geology and development of oil and gas fields in Western Siberia, TSOGU, Tyumen (in Russian).

13. Yu, J., L. Zhuo, Y. Chen, W. Sun, and Y. Liu (2021), Production Performance Analysis of Class II Hydrate-Bearing Layers Based on an Analytic Aquifer Model, Frontiers in Energy Research, 9, https://doi.org/10.3389/fenrg.2021.702456.

14. Zakrevsky, K. E. (2009), Geological 3D modeling textbook, 376 pp., Maska, Moscow (in Russian).

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