Abstract
The aim of the present paper is to determine the thermodynamic parameters of an electric shock tube. The flow is described by means of the classical shock tube. The body is described using the scheme of a multiply ionized gas introduced by A. SZANIAWSKI, Thermodynamic equilibrium is assumed in every region dissipation being disregarded. The relations between the flow parameters (temperature, density, velocity of flow, degree of ionization, pressure and velocity of sound) and the shock-wave velocity and initial density in the tube are obtained by numerical methods.References
1. V. JOSEPHSON, Production of high velocity shock, J. Appl. Phys. 1, 29 (1958).
2. Z. A. PIETSZYK, Investigation of flow through an electromagnetic shock tube. Selection of optimum parametry and preliminary results, Arch. Mech. Stos., 5, 15 (1963), 587-597.
3. Z. MUCHA, Z. A. PIETSZYK, Wyznaczanie energii dostarczonej do elektrycznej rurki uderzeniowej Rozpr. Inzyn., 2, 14 (1966).
4. 4. Я. Б. Зельдович, Ю. П. Райзер, Физика ударных волн и высокотемпературных гирдодинамических явлений, Москва 1963, 166.
5. A. SZANIAWSKI, La vitesse dû et l'adiabate l' Hugoniot pour des gaz inertes lourds, partiellement ionisés, Arch. Mech. Stos., 3/4, 14 (1962), 565.
2. Z. A. PIETSZYK, Investigation of flow through an electromagnetic shock tube. Selection of optimum parametry and preliminary results, Arch. Mech. Stos., 5, 15 (1963), 587-597.
3. Z. MUCHA, Z. A. PIETSZYK, Wyznaczanie energii dostarczonej do elektrycznej rurki uderzeniowej Rozpr. Inzyn., 2, 14 (1966).
4. 4. Я. Б. Зельдович, Ю. П. Райзер, Физика ударных волн и высокотемпературных гирдодинамических явлений, Москва 1963, 166.
5. A. SZANIAWSKI, La vitesse dû et l'adiabate l' Hugoniot pour des gaz inertes lourds, partiellement ionisés, Arch. Mech. Stos., 3/4, 14 (1962), 565.
