Photoionization model for streamer propagation mode change in simulation model for streamers in dielectric liquids

Madshaven, Inge; Hestad, O.L.; Unge, Mikael; Hjortstam, Olof; Åstrand, Per‐Olof

doi:10.1088/2516-1067/ab6320

Cited by 7 publications

(14 citation statements)

References 48 publications

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“…The model is based on the Townsend-Meek criterion in which an electron avalanche have to obtain a given size for the streamer to propagate. The software was developed and used for simulating our models for electron avalanche growth [14], conductance and capacitance in the streamer channels [15], as well as photoionization in front of the streamer [16]. From the examples on how to set up, run, and evaluate simulations, others can recreate our previous results or create their own set of simulations.…”

Section: Discussionmentioning

confidence: 99%

“…The electric field and potential is calculated by considering electrostatic shielding [14], as well as the conductance in the channel and the capacitance towards the planar electrode [15]. The streamer undergoes a transition into a fast propagation mode when radiation from the streamer head can ionize molecules directly in front of the streamer [16]. More details on the model is given in section 3.…”

Section: Avalanche Modelmentioning

confidence: 99%

“…The experimental conditions specifies an overvoltage applied to medium size needle-plane gap. The values of the physical parameters in seeds and avalanches and streamer structure are justified in our previous work[14,15,16]. Parameter values related to the simulation algorithm, or the model in general, have also been discussed in previous work.…”

mentioning

confidence: 97%

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Cerman: Software for simulating streamer propagation in dielectric liquids based on the Townsend-Meek criterion

Madshaven,

Hestad,

Åstrand

2020

Preprint

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We present a software to simulate the propagation of positive streamers in dielectric liquids. Such liquids are commonly used for electric insulation of high-power equipment. We simulate electrical breakdown in a needle-plane geometry, where the needle and the extremities of the streamer are modeled by hyperboloids, which are used to calculate the electric field in the liquid. If the field is sufficiently high, electrons released from anions in the liquid can turn into electron avalanches, and the streamer propagates if an avalanche meets the Townsend-Meek criterion. The software is written entirely in Python and released under an MIT license. We also present a set of model simulations demonstrating the capability and versatility of the software.

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Section: Discussionmentioning

confidence: 99%

Section: Avalanche Modelmentioning

confidence: 99%

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Cerman: Software for simulating streamer propagation in dielectric liquids based on the Townsend-Meek criterion

Madshaven,

Hestad,

Åstrand

2020

Preprint

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“…Discharges in liquids are similar, under certain conditions, to discharge process in gas [16]. In gaseous environments most important factor for discharge process is impact ionization that depend on kinetic energy of electrons in the discharge area [17,18]. In most cases it has been assumed that the discharges can be initiated by the absorption of radiation quantum [19].…”

Section: Discharge Models In Liquidsmentioning

confidence: 99%

“…The CFD model was used for heat and mass transfer analysis in the time between next discharges. Coupled equations for continuity of flow (18), momentum (19) (here presented in one dimension of Cartesians system), and energy (20) balances were computed in Ansys program. A typical turbulent k-ε model was in use.…”

Section: Modeling Of Temperature Distribution In the Time Between Dismentioning

confidence: 99%

Electromagnetic and Thermal Phenomena Modeling of Electrical Discharges in Liquids

et al. 2020

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Electrical discharges in liquids have received lots of attention with respect to their potential applications in various techniques and technical processes. Exemplary, they are useful for water treatment, chemical and thermal processes acceleration, or nanoparticles production. In this paper the special utility of discharges for cold pasteurization of fruit juices is presented. Development of devices for its implementation is a significant engineering problem and should be performed using modeling and simulation techniques to determine the real parameters of discharges. Unfortunately, there is a lack of clear and uniform description of breakdown phenomena in liquids. To overcome this limitation, new methods and algorithms for streamers propagation and breakdown phase analysis are presented in the paper. All solutions were tested in “active area” in the form of liquid material model, placed between two flat electrodes. Electromagnetic and thermal-coupled field analysis were performed to determine all the factors that affect the discharge propagation. Additionally, some circuit models were used to include the power source cooperation with discharge region. In general, presented solutions can be defined as universal and one can use them for numerical simulation of other types of discharges.

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Numerical Analysis of Streamer Discharge Propagation Characteristics in Natural Ester

Zheng

Yang

Feng

et al. 2022

IEEJ Transactions Elec Engng

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Natural ester is viewed as the most promising future alternative to mineral oil due to its high degradability, but its inferior breakdown characteristics prevent its application of large power equipment. The purpose of this research is to investigate the breakdown characteristics of natural ester. First, the natural ester's ionization potential and molecular number density are calculated. Then, an improved natural ester streamer discharge model is developed using the Poisson's equation and the carrier continuity equation, taking into account the effect of temperature on carrier mobility and incorporating the computed ionization potential and other factors. The results for different lightning impulse voltages were analyzed by COMSOL software. Comparing the mineral oil, the results indicate that the natural ester breakdown voltage is close to and slightly lower than that of the mineral oil but the acceleration voltage is very similar to the breakdown voltage. The lower ability of esters in prevention against the development of fast and energetic streamers is consistent with the description of the experimental results. In addition, the model takes into account the effect of temperature on the carrier mobility. As the applied voltage increases, the change of temperature in the streamer channel accelerates the carrier motion and promotes the propagation of the streamer.

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Photoionization model for streamer propagation mode change in simulation model for streamers in dielectric liquids

Cited by 7 publications

References 48 publications

Cerman: Software for simulating streamer propagation in dielectric liquids based on the Townsend-Meek criterion

Cerman: Software for simulating streamer propagation in dielectric liquids based on the Townsend-Meek criterion

Electromagnetic and Thermal Phenomena Modeling of Electrical Discharges in Liquids

Numerical Analysis of Streamer Discharge Propagation Characteristics in Natural Ester

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