Nuclear power plants are sources of a large amount of electrical energy. Therefore, ensuring their safety is a priority for the successful development of nuclear energy engineering. When studying the relief using structural and geomorphological analysis, alignment surfaces and weak zones were revealed, some of which have been transferred to the rank of low-amplitude faults. These faults and the surfaces of the foundation and relief make the framework of a 3D model created using the Roxar RMS 2013 software. The model is given a certain geodynamic setting. As a result, parameters were obtained to make it possible to determine that the Novovoronezh nuclear power plant is located in an unsafe area from the viewpoint of neogeodynamics, unlike the Kursk and Smolensk ones. The geodynamic conditions within a radius of 150 km around the plants are also interpreted using modeling, and the kinematics of faults are described.
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Zhizn Zemli [Life of the Earth] 46, no 4
Zhizn Zemli [Life of the Earth] 46, no 4
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Zhizn Zemli [Life of the Earth] 46, no 4
Zhizn Zemli [Life of the Earth] 46, no 4
Данные статьи
Description
DOI
10.29003/m4333.0514-7468.2020_46_4/442-454
Авторы:
Authors:
Ivanov, I.I., Zaytsev, V.A.
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Keywords:
Eastern European Platform, nuclear power plants, neogeodynamics, three-dimensional modeling, structural-geomorphological analysis.
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Ivanov, I.I., Zaytsev, V.A., “Neogeodynamics of the Western Part of the Eastern European Platform”, Zhizn Zemli [Life of the Earth] 46, no 4, 442–454 (2024) (in Russ., abstr. in Engl.). DOI: 10.29003/m4333.0514-7468.2020_46_4/442-454.
Neogeodynamics of the Western Part of the Eastern European Platform
Список литературы
- Yeremeyev, A.N., Scheme of permeability of the Earth’s crust of the European part of the USSR according to helium studies. Scale: 1 : 2,500,000 (Ministry of Geology of the USSR, 1983) (in Russian).
- Ivanov, I.I., “The newest geodynamics of the Smolensk nuclear power plant area”, Materials of the All–Russian scientific conference “Geotectonics and geodynamics of seismically active areas” (Moscow: Pero Publishing House, 2022. P. 276–282) (in Russian).
- Kostenko, N.P., Geomorphology (Moscow: Publishing House of Moscow State University, 1999) (in Russian).
- Lavrovich, O.N., Lavrovich, N.N., Gavryushova, S.A., “Map of quaternary formations. Central European series. Sheet N-36, M-(36) – Smolensk. Scale: 1 : 1,000,000”, State Geological Map of the Russian Federation. 3rd generation (St. Petersburg: VSEGEI, 2011) (in Russian).
- Maximov, A.V., Lukyanova, N.V., Gorbatsevich, N.R., “Map of quaternary formations. Central European series. Sheet N-37 (Moscow). Scale: 1 : 1,000,000”, State Geological Map of the Russian Federation. 3rd generation (St. Petersburg: VSEGEI, 2015) (in Russian).
- Panina, L.V., Zaytsev, V.A., Sentsov, A.A., Agibalov, A.O., “Neotectonics of the central part of the Eastern European Platform”, Bull. MOIP. Dep. of Geology 91 (4–5), 51–60 (2016) (in Russian).
- User’s Guide “Analysis Package Reservoir Modeling System (RMS)”, 2012 (www.geodisaster.ru/index.php?page=uchebnye–posobiya–2) (in Russian).
- Semenovich, V.V., Rovnin, L.I., Nevolin, N.V., Zaychenko, V.Yu., Karkus, E.V., Gabrielyants, G.A., Savinsky, K.A., Structural map of the foundation surface of the platform territories of the USSR. Scale: 1 : 5,000,000 (Ministry of Geology of the USSR, 1982) (in Russian).
- Sentsov, A.A., Seismotectonics of hazardous areas of the East European Platform: Abstract of the PhD thesis (Moscow: Lomonosov Moscow State University, 2022) (in Russian).
- Sukhanova, T.V., Stafeyev, A.N., Makarova, N.V. “The role of the Semiluki–Lipetsk fault in the newest structure of the eastern slope of the Voronezh uplift”, Bulletin of Moscow Univ. Series 4, Geology 6, 13–22 (2022) (in Russian).
References
- Yeremeyev, A.N., Scheme of permeability of the Earth’s crust of the European part of the USSR according to helium studies. Scale: 1 : 2,500,000 (Ministry of Geology of the USSR, 1983) (in Russian).
- Ivanov, I.I., “The newest geodynamics of the Smolensk nuclear power plant area”, Materials of the All–Russian scientific conference “Geotectonics and geodynamics of seismically active areas” (Moscow: Pero Publishing House, 2022. P. 276–282) (in Russian).
- Kostenko, N.P., Geomorphology (Moscow: Publishing House of Moscow State University, 1999) (in Russian).
- Lavrovich, O.N., Lavrovich, N.N., Gavryushova, S.A., “Map of quaternary formations. Central European series. Sheet N-36, M-(36) – Smolensk. Scale: 1 : 1,000,000”, State Geological Map of the Russian Federation. 3rd generation (St. Petersburg: VSEGEI, 2011) (in Russian).
- Maximov, A.V., Lukyanova, N.V., Gorbatsevich, N.R., “Map of quaternary formations. Central European series. Sheet N-37 (Moscow). Scale: 1 : 1,000,000”, State Geological Map of the Russian Federation. 3rd generation (St. Petersburg: VSEGEI, 2015) (in Russian).
- Panina, L.V., Zaytsev, V.A., Sentsov, A.A., Agibalov, A.O., “Neotectonics of the central part of the Eastern European Platform”, Bull. MOIP. Dep. of Geology 91 (4–5), 51–60 (2016) (in Russian).
- User’s Guide “Analysis Package Reservoir Modeling System (RMS)”, 2012 (www.geodisaster.ru/index.php?page=uchebnye–posobiya–2) (in Russian).
- Semenovich, V.V., Rovnin, L.I., Nevolin, N.V., Zaychenko, V.Yu., Karkus, E.V., Gabrielyants, G.A., Savinsky, K.A., Structural map of the foundation surface of the platform territories of the USSR. Scale: 1 : 5,000,000 (Ministry of Geology of the USSR, 1982) (in Russian).
- Sentsov, A.A., Seismotectonics of hazardous areas of the East European Platform: Abstract of the PhD thesis (Moscow: Lomonosov Moscow State University, 2022) (in Russian).
- Sukhanova, T.V., Stafeyev, A.N., Makarova, N.V. “The role of the Semiluki–Lipetsk fault in the newest structure of the eastern slope of the Voronezh uplift”, Bulletin of Moscow Univ. Series 4, Geology 6, 13–22 (2022) (in Russian).