Air flow control around a cylindrical model induced by a rotating electric arc discharge in an external magnetic field. Part I


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Abstract

The structure and dynamics of a near-wall gas flow produced by a rotating electric arc discharge in an external magnetic field around a cylindrical model without an incoming flow has been investigated. The electric arc on the model has been produced by a combined electric discharge (low-current rf discharge + high-current pulse-periodic discharge). Permanent magnets with induction B ≈ 0.1 T have been placed inside the cylindrical models. Ring electrodes are arranged on the surface of the model. The structure and dynamics of the near-wall gas flow around the cylindrical model have been investigated using high-speed photography, as well as the shadowgraph and particle image velocimetry (PIV) methods.

About the authors

D. S. Munkhoz

Joint Institute for High Temperatures

Author for correspondence.
Email: dasmunhoz@yahoo.com.br
Russian Federation, Moscow, 124412

V. A. Bityurin

Joint Institute for High Temperatures

Email: dasmunhoz@yahoo.com.br
Russian Federation, Moscow, 124412

A. I. Klimov

Joint Institute for High Temperatures

Email: dasmunhoz@yahoo.com.br
Russian Federation, Moscow, 124412

P. N. Kazanskii

Joint Institute for High Temperatures

Email: dasmunhoz@yahoo.com.br
Russian Federation, Moscow, 124412

I. A. Moralev

Joint Institute for High Temperatures

Email: dasmunhoz@yahoo.com.br
Russian Federation, Moscow, 124412

L. B. Polyakov

Joint Institute for High Temperatures

Email: dasmunhoz@yahoo.com.br
Russian Federation, Moscow, 124412

B. N. Tolkunov

Joint Institute for High Temperatures

Email: dasmunhoz@yahoo.com.br
Russian Federation, Moscow, 124412

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