Supersonic Jet of an Ideal Dissociating Gas with Finite Reaction Rate
スポンサーリンク
概要
- 論文の詳細を見る
The two-dimensional and axially symmetrical supersonic jets of an ideal dissociating gas with finite reaction rate are considered on the basis of the linearized theory. Basing on the fact that δ≡(M^2_e-M^2_f)/(M^2_f-1) (M_f and M_e denote respectively the frozen and equilibrium Mach numbers) is always sufficiently small, an approximate method of analysis is developed. Changes of the shape and the axial velocity distribution of the jet due to variations of the parameterδand the reaction rate are investigated in detail. Owing to the finite reaction rate, the jet has the wavy configuration damping toward downstream and tends to the equilibrium, uniform flow at infinity downstream. According as the reaction rate changes from zero to infinity, the possible transition of the jet structure from the inert to the equilibrium limit can be found.
- 社団法人日本物理学会の論文
- 1963-02-05
著者
-
Morioka Shigeki
Department Of Physics And Mathematics Faculty Of Science And Engineering Ritumeikan University
-
Morioka Shigeki
Department Of Aeronautics Faculty Of Engineering Kyoto University
関連論文
- Local Description of the Flow behind a Steady, Two-Dimensional, Curved Shock Wave
- Two-Dimensiona1 Supersonic Jet of a Conducting Inviscid Gas in the Presence of a Uniform Magnetic Field
- On the Shock Configuration in a Perfectly Conducting Gas in the Presence of a Uniform Magnetic Field
- Two-Dimensional Flow of a Weakly Conducting Gas Past a Plane Wall Containing a Magnetic Dipole
- Supersonic Jet of an Ideal Dissociating Gas with Finite Reaction Rate
- Jets of a Perfectly Conducting Inviscid Gas in the Presence of a Magnetic Field parallel to the Stream
- High Subsonic Flow past a Wedge in a Two-Dimensional Wind Tunnel at its choked State
- Two-Dimensional Unsteady Flow of a Weakly Conducting Fluid Past a Plane Wall Containing a Variable Magnetic Dipole