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An Analysis of Experimental Data on Air Ionization in a Compressed Layer near the Surface of a Spherically Blunted Cone at a Velocity about 5 km/s
Using a two-dimensional model of physicochemical gas dynamics and the author's computer code NERAT-2D, an analysis of experimental data on air ionization in a compressed layer near the surface of a spherically blunted cone at a velocity of 5.34 km/s at a height of 82–48 km was performed. Within...
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| Published in: | Fluid dynamics 2022-12, Vol.57 (Suppl 2), p.S299-S320 |
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| Format: | Article |
| Language: | English |
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| container_end_page | S320 |
| container_issue | Suppl 2 |
| container_start_page | S299 |
| container_title | Fluid dynamics |
| container_volume | 57 |
| creator | Surzhikov, S. T. |
| description | Using a two-dimensional model of physicochemical gas dynamics and the author's computer code NERAT-2D, an analysis of experimental data on air ionization in a compressed layer near the surface of a spherically blunted cone at a velocity of 5.34 km/s at a height of 82–48 km was performed. Within the framework of the system of equations of motion of a viscous compressible and heat-conducting gas, nonequilibrium physical and chemical processes in a compressed layer are taken into account. A comparison with experimental data on the level of electron concentrations in the compressed layer is given. Calculations of the distribution of densities of convective heat fluxes for the experimental conditions are performed. |
| doi_str_mv | 10.1134/S0015462822100640 |
| format | article |
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| ispartof | Fluid dynamics, 2022-12, Vol.57 (Suppl 2), p.S299-S320 |
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| language | eng |
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| subjects | Analysis Chemical reactions Classical and Continuum Physics Classical Mechanics Compressibility Data analysis Engineering Fluid Dynamics Equations of motion Fluid- and Aerodynamics Gas dynamics Heat flux Heat transmission Ionization Physics Physics and Astronomy Two dimensional analysis Two dimensional models |
| title | An Analysis of Experimental Data on Air Ionization in a Compressed Layer near the Surface of a Spherically Blunted Cone at a Velocity about 5 km/s |
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