Structure of the current layer and modes of magneto-gasdynamic interaction with supersonic gas flow
E. N. Vasil'ev, D. A. Nesterov
Institute of Computational Modelling, Siberian Branch of the Russian Academy of Sciences, Krasnoyarsk
Numerical simulation of the interaction of the current layer in the magneto-gasdynamic channel with the induction of external magnetic fields of $1$, $2$, and $4$ T and various load resistance values has been carried out. Features of the energy balance and differences in the temperature profiles in the current layers, which were both streamlined by a nonconducting gas flow and completely covered the channel cross section and interacted with the flow like a piston, are revealed. The dependences on the load resistance are obtained for the current, coefficients of current-layer permeability, and enthalpy conversion.
|Russian Foundation for Basic Research
|The study was carried out with the financial support of the Russian Foundation for Basic Research, the Government of the Krasnoyarsk Territory, and the Krasnoyarsk Regional Fund for the Support of Scientific and Technological Activities within the framework of the research project no. 18-41-242005.
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High Temperature, 2019, 57:5, 603–608
E. N. Vasil'ev, D. A. Nesterov, “Structure of the current layer and modes of magneto-gasdynamic interaction with supersonic gas flow”, TVT, 57:5 (2019), 644–650; High Temperature, 57:5 (2019), 603–608
Citation in format AMSBIB
\by E.~N.~Vasil'ev, D.~A.~Nesterov
\paper Structure of the current layer and modes of magneto-gasdynamic interaction with supersonic gas flow
\jour High Temperature
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