The Relaxation Zone Behind Normal Shock Waves in a Reacting Dusty Gas. Part 1. Monatomic Gases,
Abstract
The conservation equations for a suspension composed of an ionized gas and small solid dust particles are formulated and solved numerically. Such flows can be found downstream of strong normal shock waves propagating into dusty gases. The solution indicates that the presence of the dust significantly affects the post-shock flow field. Owing to the dust, the relaxation zone will be longer than in the pure plasma case; the equilibrium values for the suspension pressure and density will be higher than the dust-free case, while the obtained values for the temperture, degree of ionization and velocity will be lower. The numerical solution was executed for shock Mach numbers ranging from 10 to 17. It was found that the thermal relaxation length for the plasma decreases rapidly withincreasing shock Mach number, while the thermal relaxation length for the suspension mildly increases with increasing M's. The kinematic relaxation length passes through a pronounced maximum at M = 12.5. Throughout the investigated range of Mach numbers, the kinematic relaxation length is longer than the suspension thermal relaxation length.
Document Details
- Document Type
- Technical Report
- Publication Date
- Jul 01, 1981
- Accession Number
- ADP000288
Entities
People
- Gabi Ben-dor
- Ozer Igra