The prospect of magnetoplasma compressor (MPC) due to their technical and geometrical characteristics are discussed, the formulation of ways to improve their parameters is obtained. Thermal modeling of radiation-magneto plasma dynamic processes of powerful electric discharge sources is presented. The developed mathematical model is based on a nonstationary axisymmetric two dimensional system of equations for viscous one-temperature radiation plasma dynamics. This paper presents results of the numerical calculation.
In this work, a physico-mathematical model of a magnetoplasma compressor (MPC) was studied. The electro-technical characteristics and power modes of the MPC discharges in gases were considered. The radiation-plasma dynamic structures and spectral-brightness characteristics of the MPC discharges are given. Three different types of quasi-stationary spatial distributions of the plasma parameters were calculated for different heating modes (ohmic, transient, and plasma dynamic). The generation and behavior of a plasma jet created based on the plasma dynamic discharge of the MPC was studied.
An interaction of plasma beams with a target located in a seed magnetic field is considered by authors. Two types of designs of pulse choke-transformers used in experiments are presented.
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