Influence of electric and magnetic fields on the shock wave configuration at the diffuser inlet

Autor: V. A. Sakharov, T. A. Lapushkina, Alexander Erofeev, S. A. Ponyaev, Sergey Bobashev, R. V. Vasil’eva, D. Van Wie
Rok vydání: 2002
Předmět:
Zdroj: Technical Physics. 47:397-405
ISSN: 1090-6525
1063-7842
DOI: 10.1134/1.1470584
Popis: The possibility is investigated of influencing the shock wave configuration in a xenon plasma flow at the inlet of a supersonic diffuser by applying electric and magnetic fields. Flow patterns resulting from interaction of the plasma with external fields in the entire diffusor volume and its different sections are compared. The patterns are obtained by the Schlieren method using two recording regimes: individual frames or a succession of frames. The study focuses on the normal shock wave formation process under strong MHD interaction over the whole diffuser volume. Basic factors affecting the plasma flow velocity in the diffuser under externally applied fields are compared, namely, the ponderomotive force and the Joule heating of the gas by the electric field, which decelerate the supersonic flow, and the heat removal to the external electric circuit producing the opposite effect. It has been shown that the external fields are most effective if applied to the inlet part of the diffuser, while the flow in the diffuser section, where there is a large density of dissipative structures, is not readily responsive to external factors. It is suggested that the measure of response can be estimated by the energy that goes to the shock wave formation as a result of the flow interaction with the diffuser walls.
Databáze: OpenAIRE