ОДНОРІДНІСТЬ ІМПУЛЬСНОГО БАР’ЄРНОГО РОЗРЯДУ В АТМОСФЕРНОМУ ПОВІТРІ ЗА ПРИСУТНОСТІ ВОДИ В КРАПЛИННО-ПЛІВКОВОМУ СТАНІ

ОДНОРІДНІСТЬ ІМПУЛЬСНОГО БАР’ЄРНОГО РОЗРЯДУ В АТМОСФЕРНОМУ ПОВІТРІ ЗА ПРИСУТНОСТІ ВОДИ В КРАПЛИННО-ПЛІВКОВОМУ СТАНІ

It was shown the possibility of creating in atmospheric  air in a plane-parallel gap in the presence of water with a drop-film state of a uniform pulsed barrier discharge, which was initiated by unipolar voltage pulses of amplitudes up to 28 kV and fronts ≈ 40 ns and  duration abou...

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Bibliographische Detailangaben
Datum:2019
Hauptverfasser: Божко , І.В., Берека , В.О.
Format: Artikel
Sprache:Ukrainian
Veröffentlicht: Інститут електродинаміки НАН України, Київ 2019
Schlagworte:
однорідний та неоднорідний імпульсний бар’єрний розряд
повітря атмосферного тиску
краплі та плівка води
Online Zugang:https://techned.org.ua/index.php/techned/article/view/535
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Назва журналу:Technical Electrodynamics

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Technical Electrodynamics
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Zusammenfassung:It was shown the possibility of creating in atmospheric  air in a plane-parallel gap in the presence of water with a drop-film state of a uniform pulsed barrier discharge, which was initiated by unipolar voltage pulses of amplitudes up to 28 kV and fronts ≈ 40 ns and  duration about 100ns.  Studies were carried out at thicknesses: the dielectric barrier is 2 mm and  the gas gap  3 mm. The characteristic dimensions of tap water drops were 1 mm  and its films on the walls of the gas gap  ~ 0.1 mm. For these conditions, the following amplitude discharge parameters were achieved: the electric field strength in the gas gap was about 60 kV/ cm, the current density –2.6 A/cm2, the electron concentration – 8.5·1011 cm-3 with their average energy – 3,7 eB. The discharge becomes non-uniform: zones with bright filamentary formations appear in the gas gap when increasing of the frequency of repetition of voltage pulses over ≈ 300 Hz,. The limiting frequency of the discharge transition into an inhomogeneous form becomes significantly higher (more than 500 Hz) with transverse purging of the gas gap with air, the speed of which at the entrance to the electrode system is ≈ 0.6 m/s. Referenses 12, figures 7.

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