Abstract :
Self-similar flows in the background, a gasionizing cylindrical shock wave, associated with radiation
heat-flux, in an ideal gas are considered. The ionizing shock
is considered to be propagating in a medium at rest with
variable density permeated by an azimuthal magnetic
meadow. The electrical conductivity of the gas is neverending behind shock and zero ahead of it. Effect of
radiation flux and the variation of initial density and the rate
of energy input from the inner contact surface on the flowfield behind the shock and on the shock proliferation are
investigated.
Keyword :
Ionizing Shock Wave; Ideal Gas; Similarity Solution; Heat Transfer Effects; Variable Energy; Variable Initial Density; Variable Magnetic Field; Radiation HeatFlux.