Ershov, Igor V.
Stability and Suppression of Turbulence in Relaxing Molecular Gas Flows
1. Physico-Mathematical Models of Relaxing Molecular Gas Flows
Yurii N. Grigoryev, Igor V. Ershov
2. Linear Stability of Inviscid Plane-Parallel Flows of Vibrationally Excited Diatomic Gases
Yurii N. Grigoryev, Igor V. Ershov
3. Linear Stability of Supersonic Plane Couette Flow of Vibrationally Excited Gas
Yurii N. Grigoryev, Igor V. Ershov
4. Asymptotic Theory of Neutral Linear Stability Contours in Plane Shear Flows of a Vibrationally Excited Gas
Yurii N. Grigoryev, Igor V. Ershov
5. Energy Theory of Nonlinear Stability of Plane Shear Flows of Thermally Nonequilibrium Gas
Yurii N. Grigoryev, Igor V. Ershov
6. Evolution of a Large-Scale Vortex in Shear Flow of a Relaxing Molecular Gas
Yurii N. Grigoryev, Igor V. Ershov
7. Dissipation of the Kelvin–Helmholts Waves in a Relaxing Molecular Gas
Yurii N. Grigoryev, Igor V. Ershov
Keywords: Physics, Fluid- and Aerodynamics, Mathematical Applications in the Physical Sciences, Engineering Fluid Dynamics, Mathematical Methods in Physics
- Author(s)
- Ershov, Igor V.
- Grigoryev, Yurii N.
- Publisher
- Springer
- Publication year
- 2017
- Language
- en
- Edition
- 1
- Series
- Fluid Mechanics and Its Applications
- Page amount
- 32 pages
- Category
- Natural Sciences
- Format
- Ebook
- eISBN (PDF)
- 9783319553603
- Printed ISBN
- 978-3-319-55359-7
