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Neftyanaya Provintsiya 
No.2(30),2022

Methodological basis of geological modeling of Uzbekistan subsurface areas on the example of consideration and using “Integral geology” module

Sh.A. Umarov, S.S. Khabibullaev, I.N. Khakimzyanov, L.I. Nesterova

DOI: https://doi.org/10.25689/NP.2022.2.19-43

PP.19-43

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Abstract
References

Abstract

This article considers the methodological foundations of geological modeling of the subsoil of Uzbekistan using the method of integral geology.

Uzbekistan occupies one of the leading places in the world in terms of reserves, extraction and processing of minerals. The need for efficient and rational use of resources is the basis of ongoing reforms in the economy of the Republic. Continuous and systematic geological exploration of subsoil as well as efficient exploration is a priority for the entire economy.

Geological modeling is the basis for the development of any deposit. The rapid development of information and communication technologies and the achievements of scientific and technological progress makes it possible to make geological models digital, which take into account a set of geological and geophysical factors up to the physical essence of the process.

The methodological basis for creating and forming a full-fledged base of geological and geophysical materials is a separate direction, which was called "Integral Geology." Integral geology is based on the complex processing of multi-vector and factual information in order to systematize and develop an algorithm for complex geological modeling of the subsoil of Uzbekistan. Integral geology is presented as a universal methodology for the study of geological space, based on the technology of computer-mathematical modeling and system analysis of natural and geological objects.

Key words:

modeling of deposits, geostatistics, mathematical modeling, geological modeling, geological objects, integrated geology, algorithm, complex processing, many and vector information, factual information, systematization of information

References

  1. Resolution of the President of RUz No. PP-4401 of 23.07.2019. "About measures for further improvement of a geological survey of the subsoil and implementation of the State program of development and reproduction of mineral resources on 2020-2021".

  2. Resolution of the President of RUz No. PP-6079 of 05.10.2020. "About the adoption of strategy "Digital Uzbekistan-2030" and measures for her effective realization".

  3. Resolution of the President of RUz No. PP-4522 of 18.11.2020. "About measures for improvement of a system of the organization and conducting exploration works on oil and gas".

  4. A.M. Akramkhodzhayev. Geological prerequisites of oil-and-gas content of Uzbekistan.//GGF funds and works IGIRNIGM. 1960.

  5. H.H. Avazkhodzhayev. Lithology and geochemistry of cretaceous oil-and-gas deposits of the Gazlinsky raising.//GGF funds and works IGIRNIGM. Specialty 04.00.17 - Geology, search and investigation of oil and gas fields. The thesis for a degree of the candidate of geological and mineralogical sciences. 1963.

  6. A.M. Akramkhodzhayev, A.G. Babayev, I.V. Kushnirov, etc. Geological economic substantiation of the plan of exploration works for oil and gas. For 1971-1985 on the Uzbek SSR.//GGF funds and works IGIRNIGM. T.1.1970.

  7. Sh.D. Davlyatov. Tectonic criteria of prospects of oil-and-gas content of Uzbekistan and the geological and search works adjoining territories for the purpose of development of the recommendation about the direction on oil and gas.//GGF funds and works IGIRNIGM. 1976.

  8. A.A. Abidov, A.R. Hodzhayev, Yu.G. Pedder. Scientific substantiation and development of the program of further exploration works not oil and gas in mesozoic sedimentation of the Fergana depressions.//GGF funds and works IGIRNIGM. 1994.

  9. F.G. Dolgopolov. Researches of processes of decontamination of Earth on the DITCH transformation in connection with the forecast of oil-and-gas content of subsoil of Uzbekistan. Project No.183-04.//GGF funds and works IGIRNIGM. In 1 book. 2006.

  10. L.I. Nesterova, A.V. Kirshin, O.A. Zorina, etc. Calculation of stocks of Hyfrocarbons on the Hodzhadavlat field as of 2011. Project No.PD 458-11T.//GGF funds and works IGIRNIGM. 2011.

  11. T.H. Shoymuratov. Creation of hydrodynamic models on exploring fields for the purpose of increase efficiency of exploration works in limits the Bukharo-Khiva oil and gas region. Project No.340-13B.//GGF funds and works IGIRNIGM. In 2 books. T.1 - the Text. T.2 - graphics. 2013.

  12. Sh.A. Umarov, M.R. Malikov, Creation of electronic library of scientific and geological reports of a geoinformation of JSC “IGIRNIGM”. Project No.27-21 GKG RUz.//Funds GGF and GU “IGIRNIGM”, 2021.

  13. V.N. Strakhov. The main ideas and methods of extraction of information from these gravitational and magnetic observations. Theory and technique of interpretation of gravitational and magnetic anomalies.//Science. M. 1979.

  14. G.S.Vakhromeev, A.Yu.Davydenko. Modeling in prospecting geophysics.//Nauka. M. 1987.

  15. I.P. Sharapov. Metageology: Some problems.//Nauka. M. 1989.

  16. V.S. Ratnikov. Physical-theoretic modeling: bases, development, rationality.//Kiev. 1995.

  17. G.Ya. Golizdra. Theory and methods of interpretation the data of gravitate prospecting and magnetic exploration.//Materials of the 1st All-Russian conference. Geophysics and mathematics. Under the editorship of the academician V.N. Strakhov. M of 1999.

  18. B.N. Poyzner, D.L. Sitnikova. Big bifurcation: birth of mathematical modeling.//News of higher education institutions. PND. 2000. T. 8. No. 5.

  19. R.H. Sungatullin. Integral geology - the new scientific direction. Development of the ideas of N.A. Golovkinsky and A.A. Shtukenberg at the Kazan geological school.//Publishing house of the Kazan university. Kazan. 2004.

  20. B.N. Melnikov, Yu.B. Millers. Geotechnogenic structures: theory and practice.//Ural publishing house. Yekaterinburg. 2004.

  21. M.I. Ryskin, K.B. Sokulina. Complex interpretation of geophysical data.//Scientific publishing house. Saratov. 2006.

  22. V.P. Mangazeev, V.B. Belozerov, I.N. Koshovkin, A.V. Ryazanov. A display technique in digital geological model of litologic-facial features of a terrigenous collector.//Oil economy. No.4. 2006.

  23. E.A. Gladkov, E.E. Gladkova. Three-dimensional geological and technological model of the field of Hydrocarbon on the basis of individual wells adaptation.//Gas industry. 2010. No.5.

  24. V.A. Baykov., N.K. Bakirov, A.A. Yakovlev. Mathematical geology. T.1. Introduction to geostatistics.//Izhevsk: Institute of computer researches. M. 2012. 

  25. E.A. Gladkov. About correctness 3D - geological and technological models on fields of hydrocarbons.//Oil & Gas Journal. Russia. 2013. No. 1-2.

  26. B.V. Belozerov, A.V. Butorin, P.N. Gerasimenko, E.V. Zhuravleva, R.Z. Faizov. A practical advice on 3D geological modeling.//SPb.: Gazprom neft Scientific and Technical Center. 2015.

  27. S.N. Goncharenko, B.A. Berdaliev. Cognitive modeling of technological regulations for the operation of the geotechnological polygon on the basis of vector matrix analysis of operational cells. Revolution in management: a new digital economy or a new world of machines.//Collection of materials of the II International Scientific Forum "Step into the future: artificial intelligence and digital economy." Ed. GUU house. Serie No. 2. M. 2018.

  28. Goncharenko S.N., Berdaliev B.A. Methods of Forecasting and Estimation of Technogenic and Residual Accumulation of Uranium Ores at Deposits Developed by Underground Well Leaching.//Mining Information and Analytical Bulletin. 2018. No.5. doi:10.25018/0236-1493-2018-5-0-43-48.

  29. D.R. Podrezov. Methods and Models for Identification of Reserves of Technological Blocks of the Underground Well Leaching of Uranium Mine .//Caspian Journal. Management and high technology. 2020. No.2. doi:10.21672/20741707.2020.50.2.032-043.

  30. K.M. Tokareva, A.S. Muminov, S.A. Umarov. Petro-elastic modeling and analysis of petroelastic connections for Jurassic deposits of the terrigenous formation of the Jed fields of the Ustyurt oil and gas region. //Actual oil and gas problems. 2020. No.1 (28). DOI: 10.29222/ipng.2078-5712.2020-28.art3.

  31. T.F. Rakhmedov, Sh.A. Umarov, L.I. Nesterova, R.A. Narimov, S.S. Akhmedov. Innovative method of water cut cone reduction with installation of insulation screen in production of well. //Science and innovations. 2020. No.3. S.79-92.

  32. T.H. Shoymuratov, Sh.A. Umarov. Analysis of the startigraphic position of oil shale in sections of Paleogene sedimentation of Central Asia. //Science and innovation. 2020. №3. S.92-103.

  33. T.H. Shoymuratov, Sh.A. Umarov, F.O. Zhurayev, Sh.K. Yusupov. The complex analysis of geodynamic prerequisites of geochemical indicators of fluids of the Northeast part of the Amu Darya depressions on forecasting oil-and-gas content of subsoil. //Theses of reports of the VIII International symposium "Problem of geodynamics and geoecology of midland orogens" on June 28 - July 02, 2021. Bishkek. 2021. eLIBRARY ID: 47195700.

  34. L.R. Bikeeva, Z.H. Safarov, M.G. Yuldasheva, N.M. Akramova, Sh.A. Umarov. Complex geological interpretation of materials of remote sensing of Earth (Baysun structural and tectonic zone). //Theses of reports of the VIII International symposium "Problem of geodynamics and geo-ecology of midland orogens" on June 28 - July 02, 2021. Bishkek. 2021. eLIBRARY ID: 47195674.

  35. T.H. Shoymuratov, Sh.A. Umarov, Sh.K. Yusupov. Structural Features and Patterns of High-Viscosity Oil and Natural Bitumen Accumulations in Central Asia. Oil province. 2021. №1. DOI: https://doi.org/10.25689/NP.2021.

  36. Sh.A. Umarov, S.S. Khabibullaev, L.I. Nesterova, G.D. Avazova. Carbonate deposits of Jurassic age on the lateral zones of the Surkhandarya megasyncline are the most promising exploration targets for hydrocarbon raw materials of the Republic of Uzbekistan. //Oil province. 2021. No.3. DOI: 10.25689/NP.2021.3. eLIBRARY ID: 46618438.

  37. N.U. Mukhutdinov, L.R. Bikeeva, D.M. Adylov, M.G. Yuldasheva, N.M. Akramova, Sh.A. Umarov. Forecasting of oil and gas traps according to the data of structural decryption of space images within the Aybugir and Shordzhinsky uplifts of southern Ustyurt. //Collection of materials of the All-Russian Ukhta city. 2021. on 8-10 of December.

  38. A.H. Baratov, Sh.A. Umarov, A.T. Zhamolov, S.S. Khabibullaev. Experience in digital geological mapping of the Kuldzhuktau mountains during the regional study of subsoil for the search for mineral deposits. //Collection of materials of the All-Russian Scientific and Technical Conference (with international participation) "Problems of geology, development and operation of deposits, transport and processing of hard-to-recover reserves of heavy oils Ukhta city. 2021. on 8-10 of December.

Authors

Sh.A. Umarov, PhD, Head scientific researcher, Public Institution “IGIRNIGM” of the State Committee on Geology and Mineral Resources of the Republic of Uzbekistan

64, Olimlar st., Mirzo-Ulugbek district, Tashkent, 100164, Republic of Uzbekistan,

E-mail: shakhumarov@gmail.com

 

S.S. Khabibullaev, Lead Expert, The State Committee on Geology and Mineral Resources of the Republic of Uzbekistan

11, Taras Shevchenko st., Tashkent, 100063, Republic of Uzbekistan

Е-mail: saidoas@yandex.com

 

I.N. Khakimzyanov, Dr.Sc., Head of the Laboratory of the Oil Field Development Department TatNIPIneft Institute – PJSC TATNEFT; Professor at the Department of Oil and Gas Field Exploration and Development Ufa State Petroleum Technological University, Branch of the University in the City of Oktyabrsky

40, Musa Jalil st., Bugulma, 423236, Russian Federation

E-mail: khakimzyanov@tatnipi.ru

 

L.I. Nesterova, Head scientific researcher, Public Institution “IGIRNIGM” of the State Committee on Geology and Mineral Resources of the Republic of Uzbekistan

64, Olimlar st., Mirzo-Ulugbek district, Tashkent, 100164, Republic of Uzbekistan,

E-mail: Luda_Nest@gmail.com.

For citation:

Sh.A. Umarov, S.S. Khabibullaev, I.N. Khakimzyanov, L.I. Nesterova Metodologicheskie osnovy geologicheskogo modelirovanija nedr Uzbekistana na primere rassmotrenija i ispol'zovanija modulja «Integral'naja geologija» [Methodological basis of geological modeling of Uzbekistan subsurface areas on the example of consideration and using “Integral geology” module]. Neftyanaya Provintsiya, No. 2(30), 2022. pp. 19-43. DOI https://doi.org/10.25689/NP.2022.2.19-43. EDN BLTPRW (in Russian)

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   © Sh.A. Umarov, S.S. Khabibullaev, I.N. Khakimzyanov, L.I. Nesterova, 2022
       This is an open access article under the Creative Commons Attribution 4.0 License (https://creativecommons.org/licenses/by/4.0/)

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