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Publications in Math-Net.Ru |
Citations |
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2024 |
1. |
I. A. Moralev, A. Ya. Kotvitskii, O. Bychkov, “Подавление волн неустойчивости в стохастически возбужденной турбулентной низкоскоростной струе с использованием упреждающего управления”, TVT, 62:4 (2024), 632–636 |
2. |
I. V. Selivonin, I. A. Moralev, “Влияние внешнего потока на характеристики поверхностного барьерного разряда”, TVT, 62:1 (2024), 3–11 |
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2023 |
3. |
A. Ya. Kotvitskii, I. A. Moralev, M. V. Ustinov, A. A. Abdullaev, “Возбуждение стационарных мод неустойчивости поперечного течения с помощью плазменного актуатора на основе диэлектрического барьерного разряда”, TVT, 61:6 (2023), 830–835 |
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2022 |
4. |
M. V. Ustinov, I. M. Popov, I. V. Selivonin, I. A. Moralev, “Localized forcing of the two-dimensional boundary layer individual microdischarge in a plasma actuator”, Prikl. Mekh. Tekh. Fiz., 63:4 (2022), 3–17 ; J. Appl. Mech. Tech. Phys., 63:4 (2022), 553–565 |
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2021 |
5. |
P. N. Kazanskii, A. Ya. Kotvitskii, I. A. Moralev, “Three-dimensional flow structure in the vicinity of the pulsed surface arc discharge in a magnetic field”, Pisma v Zhurnal Tekhnicheskoi Fiziki, 47:11 (2021), 6–9 ; Tech. Phys. Lett., 47:8 (2021), 565–568 |
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2020 |
6. |
A. V. Lazukin, S. V. Gundareva, I. A. Moralev, S. A. Krivov, “Presowing treatment of winter wheat seeds using surface discharge”, Zhurnal Tekhnicheskoi Fiziki, 90:10 (2020), 1621–1627 ; Tech. Phys., 65:10 (2020), 1551–1557 |
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2017 |
7. |
D. S. Munhoz, I. P. Zavershinskii, A. I. Klimov, P. N. Kazanskii, N. E. Molevich, I. A. Moralev, L. B. Polyakov, D. P. Porfir'ev, S. S. Sugak, B. N. Tolkunov, “Air flow control around a cylindrical model induced by a rotating electric arc discharge in an external magnetic field. Part II”, Zhurnal Tekhnicheskoi Fiziki, 87:8 (2017), 1159–1164 ; Tech. Phys., 62:8 (2017), 1171–1176 |
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8. |
D. S. Munhoz, V. A. Bityurin, A. I. Klimov, P. N. Kazanskii, I. A. Moralev, L. B. Polyakov, B. N. Tolkunov, “Air flow control around a cylindrical model induced by a rotating electric arc discharge in an external magnetic field. Part I”, Zhurnal Tekhnicheskoi Fiziki, 87:7 (2017), 997–1002 ; Tech. Phys., 62:7 (2017), 1013–1018 |
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9. |
I. A. Moralev, I. V. Selivonin, “Edge effects in flow around a plasma actuator”, Pisma v Zhurnal Tekhnicheskoi Fiziki, 43:4 (2017), 80–88 ; Tech. Phys. Lett., 43:2 (2017), 220–223 |
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2016 |
10. |
V. A. Bityurin, I. P. Zavershinskii, A. I. Klimov, N. E. Molevich, I. A. Moralev, D. Munhoz, L. Polyakov, D. P. Porfir'ev, S. S. Sugak, “Streamlining of a cylinder with an electric arc rotating in a magnetic field”, TVT, 54:4 (2016), 632–635 ; High Temperature, 54:4 (2016), 599–602 |
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2014 |
11. |
V. A. Bityurin, A. V. Efimov, P. N. Kazanskii, A. I. Klimov, I. A. Moralev, “Aerodynamic Quality Management for the NACA 23012 Airfoil Model using the Surface High-Frequency Discharge”, TVT, 52:4 (2014), 504–511 ; High Temperature, 52:4 (2014), 483–489 |
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12. |
M. S. Krivokorytov, V. V. Golub, I. A. Moralev, V. V. Volodin, “Experimental Study of the Development of a Helium Jet during Acoustic Action”, TVT, 52:3 (2014), 450–455 ; High Temperature, 52:3 (2014), 438–442 |
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2012 |
13. |
P. N. Kazanskyi, A. I. Klimov, I. A. Moralev, “High-frequency actuator control of air flow near a circular cylinder: Impact of the discharge parameters on the cylinder aerodynamic drag”, TVT, 50:3 (2012), 346–353 ; High Temperature, 50:3 (2012), 323–330 |
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2011 |
14. |
I. B. Klement'eva, V. A. Bityurin, B. N. Tolkunov, I. A. Moralev, “Experimental Study of Electrical Discharges in Gas Flows under External Magnetic Field”, TVT, 49:6 (2011), 816–825 ; High Temperature, 49:6 (2011), 788–796 |
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2010 |
15. |
I. P. Zavershinskii, A. I. Klimov, V. G. Makaryan, N. E. Molevich, I. A. Moralev, D. P. Porfir'ev, “Численное моделирование вихревого потока в присутствии поперечного разряда постоянного тока”, TVT, 48:supplementary issue (2010), 142–146 |
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16. |
I. A. Moralev, A. I. Klimov, D. S. Preobrazhenskij, B. N. Tolkunov, V. A. Kutkakiev, “Взаимодействие емкостного ВЧ-разряда с закрученным течением в трубе”, TVT, 48:supplementary issue (2010), 136–141 |
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