Persons: Fedorova, Natal'ya Nikolaevna

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Fedorova, Natal'ya Nikolaevna

Statistics Math-Net.Ru
Total publications:	22
Scientific articles:	22

Number of views:
This page:	43
Abstract pages:	598
Full texts:	184
References:	23

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https://www.mathnet.ru/eng/person190003

List of publications on Google Scholar

List of publications on ZentralBlatt

	Publications in Math-Net.Ru	Citations
	2024
1.	N. N. Fedorova, “Temperature factor effect on pulsating hydrogen combustion in a high-speed air flow”, Chelyab. Fiz.-Mat. Zh., 9:2 (2024), 287–298
2.	I. R. Vasnev, N. N. Fedorova, “Convective and radiative heat transfer effects on premixed hydrogen-air combustion in high-speed flow”, Chelyab. Fiz.-Mat. Zh., 9:2 (2024), 203–212
	2023
3.	N. N. Fedorova, “Numerical simulation of thermal choking of a channel during combustion of a hydrogen-air mixture in a supersonic flow”, Fizika Goreniya i Vzryva, 59:4 (2023), 12–24 ; Combustion, Explosion and Shock Waves, 59:4 (2023), 402–414
4.	I. R. Vasnev, N. N. Fedorova, “Numerical simulation of heating of experimental model walls in supersonic flows”, Prikl. Mekh. Tekh. Fiz., 64:2 (2023), 121–126 ; J. Appl. Mech. Tech. Phys., 64:2 (2023), 279–283	1
	2022
5.	N. N. Fedorova, M. A. Goldfeld, V. V. Pickalov, “Investigation of oscillating regimes in a high-velocity flow with heat supply. II. Numerical simulation”, Fizika Goreniya i Vzryva, 58:5 (2022), 44–53 ; Combustion, Explosion and Shock Waves, 58:5 (2022), 546–554	3
6.	N. N. Fedorova, M. A. Goldfeld, V. V. Pickalov, “Investigation of oscillating regimes in a high-velocity flow with heat supply. I. Experiment”, Fizika Goreniya i Vzryva, 58:5 (2022), 33–43 ; Combustion, Explosion and Shock Waves, 58:5 (2022), 536–545	3
7.	N. N. Fedorova, O. S. Vankova, “Effect of the ambient medium parameters on ignition and combustion of a supersonic hydrogen jet expanding into a still space”, Fizika Goreniya i Vzryva, 58:3 (2022), 19–31 ; Combustion, Explosion and Shock Waves, 58:3 (2022), 269–281	1
8.	N. N. Fedorova, O. S. Vankova, M. A. Goldfeld, “Unsteady regimes of hydrogen ignition and flame stabilization in a channel”, Fizika Goreniya i Vzryva, 58:2 (2022), 3–11 ; Combustion, Explosion and Shock Waves, 58:2 (2022), 127–134	4
	2021
9.	O. S. Vankova, N. N. Fedorova, “Modeling of ignition and combustion of a cocurrent hydrogen jet in a supersonic air flow”, Fizika Goreniya i Vzryva, 57:4 (2021), 18–28 ; Combustion, Explosion and Shock Waves, 57:4 (2021), 398–407	6
10.	S. V. Pogudalina, N. N. Fedorova, “Direct numerical simulation of aeroelastic vibrations of a high-aspect rod for modes similar to resonance modes”, Prikl. Mekh. Tekh. Fiz., 62:2 (2021), 183–192 ; J. Appl. Mech. Tech. Phys., 62:2 (2021), 336–343
	2018
11.	M. A. Goldfeld, Yu. V. Zakharova, A. V. Fedorov, N. N. Fedorova, “Effect of the wave structure of the flow in a supersonic combustor on ignition and flame stabilization”, Fizika Goreniya i Vzryva, 54:6 (2018), 3–16 ; Combustion, Explosion and Shock Waves, 54:6 (2018), 629–641	16
	2017
12.	S. A. Valger, N. N. Fedorova, A. V. Fedorov, “Mathematical modeling of propagation of explosion waves and their effect on various objects”, Fizika Goreniya i Vzryva, 53:4 (2017), 72–83 ; Combustion, Explosion and Shock Waves, 53:4 (2017), 433–443	7
	2013
13.	N. N. Fedorova, I. A. Fedorchenko, A. V. Fedorov, “Mathematical modeling of jet interaction with a high-enthalpy flow in an expanding channel”, Prikl. Mekh. Tekh. Fiz., 54:2 (2013), 32–45 ; J. Appl. Mech. Tech. Phys., 54:2 (2013), 195–206	14
	2006
14.	I. A. Bedarev, N. N. Fedorova, “Structure of supersonic turbulent flows in the vicinity of inclined backward-facing steps”, Prikl. Mekh. Tekh. Fiz., 47:6 (2006), 48–58 ; J. Appl. Mech. Tech. Phys., 47:6 (2006), 812–820	3
	2004
15.	I. A. Bedarev, V. N. Parmon, A. V. Fedorov, N. N. Fedorova, V. M. Fomin, “Numerical study of methane pyrolysis in shock waves”, Fizika Goreniya i Vzryva, 40:5 (2004), 91–101 ; Combustion, Explosion and Shock Waves, 40:5 (2004), 580–590	4
16.	N. N. Fedorova, I. A. Fedorchenko, “Computations of interaction of an incident oblique shock wave with a turbulent boundary layer on a flat plate”, Prikl. Mekh. Tekh. Fiz., 45:3 (2004), 61–71 ; J. Appl. Mech. Tech. Phys., 45:3 (2004), 358–366	13
	2002
17.	A. V. Fedorov, N. N. Fedorova, I. A. Fedorchenko, V. M. Fomin, “Mathematical simulation of dust lifting from the surface”, Prikl. Mekh. Tekh. Fiz., 43:6 (2002), 113–125 ; J. Appl. Mech. Tech. Phys., 43:6 (2002), 877–887	11
18.	I. A. Bedarev, A. A. Maslov, A. A. Sidorenko, N. N. Fedorova, A. N. Shiplyuk, “Experimental and numerical study of a hypersonic separated flow in the vicinity of a cone-flare model”, Prikl. Mekh. Tekh. Fiz., 43:6 (2002), 100–112 ; J. Appl. Mech. Tech. Phys., 43:6 (2002), 867–876	3
19.	I. A. Bedarev, A. V. Borisov, N. N. Fedorova, “Modeling of supersonic turbulent flows in the vicinity of axisymmetric configurations”, Prikl. Mekh. Tekh. Fiz., 43:6 (2002), 93–99 ; J. Appl. Mech. Tech. Phys., 43:6 (2002), 861–866	1
	2001
20.	I. A. Bedarev, N. N. Fedorova, “Computation of gas–dynamic parameters and heat transfer in supersonic turbulent separated flows near backward–facing steps”, Prikl. Mekh. Tekh. Fiz., 42:1 (2001), 56–64 ; J. Appl. Mech. Tech. Phys., 42:1 (2001), 49–56	8
	1996
21.	A. V. Borisov, N. N. Fedorova, “Numerical simulation of supersonic separated turbulent flows”, Prikl. Mekh. Tekh. Fiz., 37:4 (1996), 89–97 ; J. Appl. Mech. Tech. Phys., 37:4 (1996), 533–540	1
	1992
22.	A. V. Fedorov, N. N. Fedorova, “Structure, propagation, and reflection of shock waves in a mixture of solids (the hydrodynamic approximation)”, Prikl. Mekh. Tekh. Fiz., 33:4 (1992), 10–18 ; J. Appl. Mech. Tech. Phys., 33:4 (1992), 487–494	7

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Khristianovich Institute of Theoretical and Applied Mechanics, Siberian Branch of the Russian Academy of Sciences, Novosibirsk

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