Automated determination of pressure profile generated by
discharges in contact with liquid phase by interferometric
technique

a 2019

Automated determination of pressure profile generated by discharges in contact with liquid phase by interferometric technique

KUSÝN, Lukáš; Petr HOFFER; Zdeněk BONAVENTURA a Tomáš HODER

Základní údaje

Originální název

Automated determination of pressure profile generated by discharges in contact with liquid phase by interferometric technique

Autoři

KUSÝN, Lukáš; Petr HOFFER; Zdeněk BONAVENTURA a Tomáš HODER

Vydání

13th Frontiers in Low-Temperature Plasma Diagnostics & 1st Frontiers in Low-Temperature Plasma Simulations, 2019

Další údaje

Jazyk

angličtina

Typ výsledku

Konferenční abstrakt

Obor

10305 Fluids and plasma physics

Stát vydavatele

Německo

Utajení

není předmětem státního či obchodního tajemství

Označené pro přenos do RIV

Organizační jednotka

Přírodovědecká fakulta

Klíčová slova anglicky

plasma;interferometry

Změněno: 26. 2. 2020 16:32, Mgr. Lukáš Kusýn, Ph.D.

Anotace

V originále

The development of discharge in dielectric liquids is still centre of discussion to this day. The propagation of streamer is closely accompanied by time-dependent radial expansion of pressure wave in surrounding liquid. The phenomena of shock waves produced by expanding corona-like discharges in aqueous solutions is well known, nevertheless the determination of pressure profile of investigated inhomogeneity can be quite challenging (eg. [1]). To investigate aforementioned discharges in distilled water or highly conductive salt aqueous solutions the Mach-Zehnder interferometer is used to reveal fast micro-physics by study of change of refractive index. Consequentially, the distribution of pressure and electric field generated by nanosecond high-voltage pulse in water can be estimated. To effectively achieve these distributions, we propose the use of automatized procedure to analyze large amount of experimental data by advanced statistical techniques. An example of interferogram used in this work can be seen in Fig. 1. The evaluation of interferometric images is based on isolation of constructive interference pattern and ability to select individual light rays, see Fig. 2. As the light ray propagates through inhomogeneous region the deviation of refractive index is determined by ”onion-peeling method”. The method separates investigated inhomogeneity into several layers where the resulting distributions are achieved by iterative procedure. Result of such evaluation can be seen in Fig. 3. The results of automatized process will be critically compared with standard approach to evaluate its precision and improve it further. Ultimately we believe that this approach will lead to novel insight into the phenomena of nanosecond discharges in liquid environment and significantly increase the efficiency of experimental data evaluation. This contribution is funded by Czech Science Agency grant no. 18-04676S.

Návaznosti

GA18-04676S, projekt VaV

Název: Základní mechanismy nanosekundového výboje v kapalné vodě

Investor: Grantová agentura ČR, Základní mechanismy nanosekundového výboje v kapalné vodě

Citovat

KUSÝN, Lukáš; Petr HOFFER; Zdeněk BONAVENTURA a Tomáš HODER. Automated determination of pressure profile generated by discharges in contact with liquid phase by interferometric technique. In 13th Frontiers in Low-Temperature Plasma Diagnostics & 1st Frontiers in Low-Temperature Plasma Simulations. 2019.

@proceedings{1628716,
   author = {Kusýn, Lukáš and Hoffer, Petr and Bonaventura, Zdeněk and Hoder, Tomáš},
   booktitle = {13th Frontiers in Low-Temperature Plasma Diagnostics & 1st Frontiers in Low-Temperature Plasma Simulations},
   keywords = {plasma;interferometry},
   language = {eng},
   title = {Automated determination of pressure profile generated by discharges in contact with liquid phase by interferometric technique},
   year = {2019}
}

TY  - CONF
ID  - 1628716
AU  - Kusýn, Lukáš - Hoffer, Petr - Bonaventura, Zdeněk - Hoder, Tomáš
PY  - 2019
TI  - Automated determination of pressure profile generated by discharges in contact with liquid phase by interferometric technique
KW  - plasma;interferometry
N2  - The development of discharge in dielectric liquids is still centre of discussion to this day. The propagation of streamer is closely accompanied by time-dependent radial expansion of pressure wave in surrounding liquid. The phenomena of shock waves produced by expanding corona-like discharges in aqueous solutions is well known, nevertheless the determination of pressure profile of investigated inhomogeneity can be quite challenging (eg. [1]). To investigate aforementioned discharges in distilled water or highly conductive salt aqueous solutions the Mach-Zehnder interferometer is used to reveal fast micro-physics by study of change of refractive index. Consequentially, the distribution of pressure and electric field generated by nanosecond high-voltage pulse in water can be estimated. To effectively achieve these distributions, we propose the use of automatized procedure to analyze large amount of experimental data by advanced statistical techniques. An example of interferogram used in this work can be seen in Fig. 1. The evaluation of interferometric images is based on isolation of constructive interference pattern and ability to select individual light rays, see Fig. 2. As the light ray propagates through inhomogeneous region the deviation of refractive index is determined by ”onion-peeling method”. The method separates investigated inhomogeneity into several layers where the resulting distributions are achieved by iterative procedure. Result of such evaluation can be seen in Fig. 3. The results of automatized process will be critically compared with standard approach to evaluate its precision and improve it further. Ultimately we believe that this approach will lead to novel insight into the phenomena of nanosecond discharges in liquid environment and significantly increase the efficiency of experimental data evaluation. This contribution is funded by Czech Science Agency grant no. 18-04676S.
ER  -

KUSÝN, Lukáš; Petr HOFFER; Zdeněk BONAVENTURA a Tomáš HODER. Automated determination of pressure profile generated by discharges in contact with liquid phase by interferometric technique. In \textit{13th Frontiers in Low-Temperature Plasma Diagnostics \&{} 1st Frontiers in Low-Temperature Plasma Simulations}. 2019.

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