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Quasi-stationary magneto-plasma compressor for investigation of plasma jets in aerodynamics. / Mashek, Igor Ch; Anisimov, Yuri I.; Lashkov, Valery A.; Kolesnichenko, Yuri F.

Collection of Technical Papers - 44th AIAA Aerospace Sciences Meeting. 2006. p. 17549-17562 (Collection of Technical Papers - 44th AIAA Aerospace Sciences Meeting; Vol. 23).

Research output: Chapter in Book/Report/Conference proceedingConference contributionpeer-review

Harvard

Mashek, IC, Anisimov, YI, Lashkov, VA & Kolesnichenko, YF 2006, Quasi-stationary magneto-plasma compressor for investigation of plasma jets in aerodynamics. in Collection of Technical Papers - 44th AIAA Aerospace Sciences Meeting. Collection of Technical Papers - 44th AIAA Aerospace Sciences Meeting, vol. 23, pp. 17549-17562, 44th AIAA Aerospace Sciences Meeting 2006, Reno, NV, United States, 9/01/06.

APA

Mashek, I. C., Anisimov, Y. I., Lashkov, V. A., & Kolesnichenko, Y. F. (2006). Quasi-stationary magneto-plasma compressor for investigation of plasma jets in aerodynamics. In Collection of Technical Papers - 44th AIAA Aerospace Sciences Meeting (pp. 17549-17562). (Collection of Technical Papers - 44th AIAA Aerospace Sciences Meeting; Vol. 23).

Vancouver

Mashek IC, Anisimov YI, Lashkov VA, Kolesnichenko YF. Quasi-stationary magneto-plasma compressor for investigation of plasma jets in aerodynamics. In Collection of Technical Papers - 44th AIAA Aerospace Sciences Meeting. 2006. p. 17549-17562. (Collection of Technical Papers - 44th AIAA Aerospace Sciences Meeting).

Author

Mashek, Igor Ch ; Anisimov, Yuri I. ; Lashkov, Valery A. ; Kolesnichenko, Yuri F. / Quasi-stationary magneto-plasma compressor for investigation of plasma jets in aerodynamics. Collection of Technical Papers - 44th AIAA Aerospace Sciences Meeting. 2006. pp. 17549-17562 (Collection of Technical Papers - 44th AIAA Aerospace Sciences Meeting).

BibTeX

@inproceedings{c9f6fbdccf014dcd847b41df9d632719,
title = "Quasi-stationary magneto-plasma compressor for investigation of plasma jets in aerodynamics",
abstract = "The present work is devoted to experimental investigations of the possibilities of Quasi-Stationary Magneto Plasma Compressor (MPC) application to plasmadynamics and aerodynamics. MPC operates in two main regimes. The first is a {"}Vacuum Regime{"} (VR). In this regime MPC operates under the initial pressure nearly 10-5 Torr, and the fast impulse valve is used to let the gas pass into MPC. In this regime MPC can produce a compressive quasi-stationary plasma jets of very high velocity (about 70-100 km/s for He), but with comparatively low density (1015-10-16 cm -3). The second regime is a residual gas regime (RGR). In this one MPC operates with residual gas, containing in test chamber, and does not need in fast gas valve. The initial pressure for this regime is usually 0.1-10 Torr. The plasma jets in this regime have the life time and geometry as in VR case, comparatively low velocities (5-20km/s for air) and high densities (10 17-1018 cm-3). MPC in RGR possesses very high dynamic pressure (our preliminary estimations give the value about 100-150 bar) and high mass flow rate (about 50 g/s). Results of our first experiments show that RG regime of MPC is perspective for experimental modeling of interaction processes of high-speed plasma flows with different materials and bodies and for studying of mixing of supersonic neutral flows and hypersonic plasma jets, plasma injection in standard aerodynamic supersonic flows.",
author = "Mashek, {Igor Ch} and Anisimov, {Yuri I.} and Lashkov, {Valery A.} and Kolesnichenko, {Yuri F.}",
year = "2006",
month = dec,
day = "1",
language = "English",
isbn = "1563478072",
series = "Collection of Technical Papers - 44th AIAA Aerospace Sciences Meeting",
pages = "17549--17562",
booktitle = "Collection of Technical Papers - 44th AIAA Aerospace Sciences Meeting",
note = "44th AIAA Aerospace Sciences Meeting 2006 ; Conference date: 09-01-2006 Through 12-01-2006",

}

RIS

TY - GEN

T1 - Quasi-stationary magneto-plasma compressor for investigation of plasma jets in aerodynamics

AU - Mashek, Igor Ch

AU - Anisimov, Yuri I.

AU - Lashkov, Valery A.

AU - Kolesnichenko, Yuri F.

PY - 2006/12/1

Y1 - 2006/12/1

N2 - The present work is devoted to experimental investigations of the possibilities of Quasi-Stationary Magneto Plasma Compressor (MPC) application to plasmadynamics and aerodynamics. MPC operates in two main regimes. The first is a "Vacuum Regime" (VR). In this regime MPC operates under the initial pressure nearly 10-5 Torr, and the fast impulse valve is used to let the gas pass into MPC. In this regime MPC can produce a compressive quasi-stationary plasma jets of very high velocity (about 70-100 km/s for He), but with comparatively low density (1015-10-16 cm -3). The second regime is a residual gas regime (RGR). In this one MPC operates with residual gas, containing in test chamber, and does not need in fast gas valve. The initial pressure for this regime is usually 0.1-10 Torr. The plasma jets in this regime have the life time and geometry as in VR case, comparatively low velocities (5-20km/s for air) and high densities (10 17-1018 cm-3). MPC in RGR possesses very high dynamic pressure (our preliminary estimations give the value about 100-150 bar) and high mass flow rate (about 50 g/s). Results of our first experiments show that RG regime of MPC is perspective for experimental modeling of interaction processes of high-speed plasma flows with different materials and bodies and for studying of mixing of supersonic neutral flows and hypersonic plasma jets, plasma injection in standard aerodynamic supersonic flows.

AB - The present work is devoted to experimental investigations of the possibilities of Quasi-Stationary Magneto Plasma Compressor (MPC) application to plasmadynamics and aerodynamics. MPC operates in two main regimes. The first is a "Vacuum Regime" (VR). In this regime MPC operates under the initial pressure nearly 10-5 Torr, and the fast impulse valve is used to let the gas pass into MPC. In this regime MPC can produce a compressive quasi-stationary plasma jets of very high velocity (about 70-100 km/s for He), but with comparatively low density (1015-10-16 cm -3). The second regime is a residual gas regime (RGR). In this one MPC operates with residual gas, containing in test chamber, and does not need in fast gas valve. The initial pressure for this regime is usually 0.1-10 Torr. The plasma jets in this regime have the life time and geometry as in VR case, comparatively low velocities (5-20km/s for air) and high densities (10 17-1018 cm-3). MPC in RGR possesses very high dynamic pressure (our preliminary estimations give the value about 100-150 bar) and high mass flow rate (about 50 g/s). Results of our first experiments show that RG regime of MPC is perspective for experimental modeling of interaction processes of high-speed plasma flows with different materials and bodies and for studying of mixing of supersonic neutral flows and hypersonic plasma jets, plasma injection in standard aerodynamic supersonic flows.

UR - http://www.scopus.com/inward/record.url?scp=34250728154&partnerID=8YFLogxK

M3 - Conference contribution

AN - SCOPUS:34250728154

SN - 1563478072

SN - 9781563478079

T3 - Collection of Technical Papers - 44th AIAA Aerospace Sciences Meeting

SP - 17549

EP - 17562

BT - Collection of Technical Papers - 44th AIAA Aerospace Sciences Meeting

T2 - 44th AIAA Aerospace Sciences Meeting 2006

Y2 - 9 January 2006 through 12 January 2006

ER -

ID: 47780843