Optical emission spectroscopy investigation of the low-power multispark plasma actuator

• Autorzy: Olszewski S. , Bondarenko P. , Kostenko S. , Komada P.

Warianty tytułu

PL

Zastosowanie spektroskopii emisyjnej w badaniach wieloiskrowego aktuatora plazmowego

• Języki publikacji: EN

Abstrakty

EN

One of the important ways of controlling aerodynamic flow near the surface there is an impact to the flow of pulsating plasma. For a real discharge devices used in such problems it is very important to understand what modes maintain plasma of atmospheric pressure give maximum effect with minimum energy consumption. In the applied aspect of this work presents the results of the development of a scalable high-voltage power source to generate a multi-spark discharge with large total length. A fundamental aspect of this work presents the results of research of the plasma emission properties of quasi-stationary multi-spark discharge in atmospheric pressure.

PL

Jedną z istotnych metod kontrolowania przepływu aerodynamicznego przy powierzchni jest oddziaływanie na przepływ pulsującej plazmy. Dla rzeczywistych urządzeń wyładowczych, stosowanych w tego rodzaju zagadnieniach bardzo ważne jest zrozumienie jakie tryby zachowania plazmy z ciśnieniem atmosferycznym dają maksymalny efekt przy minimalnym zużyciu energii. Praktyczny aspekt pracy stanowią wyniki postępów w pracach nad skalowalnym wysokonapięciowym źródłem zasilania do wytwarzania wieloiskrowych wyładowań o dużej długości całkowitej. Podstawowy aspekt pracy stanowią rezultaty badań właściwości emisji plazmy dla quasi-stacjonarnych wioeloiskrowych wyładowań w ciśnieniu atmosferycznym.

Słowa kluczowe

EN

Ruhmkorff coil; high voltage; multi-spark discharge; emission spectroscopy; plasma actuator

PL

cewka Ruhmkorffa; wysokie napięcie; wyładowania wieloiskrowe; spektroskopia emisyjna; aktuator plazmowy

• Wydawca: Wydawnictwo SIGMA-NOT
• Czasopismo: Elektronika : konstrukcje, technologie, zastosowania
• Rocznik: 2013
• Tom: Vol. 54, nr 8
• Strony: 54--57
• Opis fizyczny: Bibliogr. 23 poz., wykr.

Twórcy

autor

Olszewski S.

• Taras Shevchenko national university of Kyiv, Radio physics faculty, prospect acad. Kyiv, Ukraine

autor

Bondarenko P.

• Taras Shevchenko national university of Kyiv, Radio physics faculty, prospect acad. Kyiv, Ukraine

autor

Kostenko S.

• Taras Shevchenko national university of Kyiv, Radio physics faculty, prospect acad. Kyiv, Ukraine

autor

Komada P.

• Lublin University of Technology, Lublin, Poland

Bibliografia

• [1] Levitsky S. M., Nadtochiy A. B., Sigalcwsky D. Yu., Plasma formation with sliding discharge in the erosive spark source, Kyiv University Bulletin. Physics and Mathematics, Nº 1, 1994, 333-337.
• [2] Chirokov A., Gutsol A., Fridman A., Atmospheric pressure plasma of dielectric barrier discharges, Pure and Applied Chemistry,. Vol. 77, Nº 2, 2005, 487-495, DOI: 10.1351, pac200577020487.
• [3] Jayaraman B., Cho Y. C., Shyy W., Modeling of Dielectric Barrier Discharge Plasma Actuator, Proceedings of 38th AIAA Plasmadynamics and Lasers Conference, Miami, FL, USA, 2007, AIAA 2007-4531, 1-20.
• [4] Tyata R. B., Subedi D. P., An investigation of the effect of electrode geometry and frequency of power supply in the homogeneity of dielectric barrier discharge in air, Katmandu University Journal of Science, Engineering and Technology, Vol. 6, Nº I, 2010, 96-101.
• [5] Tyata R. B., Subedi D. P., Wong C. S., Comparison of dielectric barrier discharge in air, nitrogen and argon at atmospheric pressure, Katmandu University Journal of Science, Engineering and Technology, Vol. 6, Nº II, 2010, 6-12.
• [6] Malinina A. A., Guivan M. M., Shimon L. L., Optical characteristics and parameters of DBD plasma based on multicomponent mixtures of mercury dibromide vapor with gases, Proceedings of the ESCAMPIG XXI, Viana do Castelo, Portugal, 2012.
• [7] Goud V. S., Udakhe J. S., Effect of low-temperature plasma treatment on tailorability and thermal properties of wool fabrics, PRAMANA Journal of Physics, Vol. 77, Nº 4, 2011, 669-677.
• [8] Kudriashov S. V. et al, Oxidation of n-C5-C8 hydrocarbones and cyclohexane in the reactor with barrier discharge. Part. 1. Results of experimental studies, Tomsk Polytechnical University Bulletin, Vol. 309, Nº 6, 2006.
• [9] Pichal J., et al, Application of atmospheric dielectric barrier discharge plasma for polyethylene powder modification, Problems of Atomic Science and Technology, Nº 6. Series: Plasma Physics (12), 2006, 192-194.
• [10] Rico V. J. et al, Hybrid catalytic-DBD plasma reactor for the production of hydrogen and preferential CO oxidation (CO-PROX) at reduced temperatures, Chemical Communications, 2009, 6192-6194.
• [11] Lu B. et al, Plasma Oxidation of Benzene Using DBD Corona Discharges, Journal of Materials Engineering and Performance, Volume 17(3), 2008, 428-431, DOI: 10.1007, s11665-007-9157-5.
• [12] Pekárek S., Experimental study of surface dielectric barrier discharge in air and its ozone production, Journal of Physics D: Applied Physic, Vol. 45. Nº 7, 2012, 075201, DOI: 10.1088, 0022-3727, 45, 7, 075201.
• [13] Anisimov I. O., Levitsky S. M., Sigalovsky D. Yu., Plasma formed by erosive spark source with the sliding discharge, Proceedings of the IC-PIG XXIV, Warsaw, Poland, Vol. IV, 1999, 147.
• [14] Kelnyk O. I., Samchuk O. V., Peculiarities of energy distribution functions for particles in microplasma discharge inside dielectric cell, Bulletin of National Taras Shevchenko University of Kyiv. Radio Physics and Electronics, Nº 15, 2011, 22-33.
• [15] Wang C. C., Roya S., Microscale plasma actuators for improved thrust density, Journal of Applied Physics, Vol. 106, 2009, 013310-1-7.
• [16] Likhanskii A. V., et al, Numerical modeling of DBD plasma actuators and the induced air flow, Proceedings of 38th AIAA Plasmadynamics and Lasers Conference, Miami, FL, USA, AIAA 2007-4533, 2007, 1-13.
• [17] Balcon N., et al, Positive and negative sawtooth signals applied to a DBD plasma actuator - influence on the electric wind, Journal of Electrostatics, Vol. 67, 2009, 140-145.
• [18] Likhanskii A. V., Particle-in-Cell modeling of the pulsed DBD plasma actuator, Proceedings of 40th Fluid Dynamics Conference and Exhibit, Chicago, Illinois. 2010. AIAA 2010-5101.
• [19] Thomas F. O., et al, Optimization of Dielectric Barrier.
• [20] Veklich A., et al, Spectroscopy of free-burning electric are between brass electrodes, VII International Conference Plasma Physics and Plasma Technology, Minsk, Belarus, September 17-21, 2012, Contributed papers, VI, 295-298.
• [21] http:\\physics.nist.gov\PhysRefData\ASD\lines_form.html
• [22] Plasma spectroscopy. Griem, Hans R. New York: McGraw-Hill, 1964.
• [23] Kurucz R. L., Peytremann E., A Table of Semiempirical gf Values, SAO Spec. Report Nº 362, 1975.