International audienceA finite element model including plasma simulation is used to calculate the amplitude of acoustic resonances in HID lamps in a 2D axisymmetric geometry. Simulation results are presented for different operation parameters and are compared with experimental data
Based on the physical laws of plasma discharge, a simplified but accurate model that can be easily i...
With the last decades, the high pressure sodium (HPS) lamp has been supplied in high frequency in or...
This contribution gives a description of numerical models constructed with the PLASIMO toolkit and a...
International audienceA finite element model including plasma simulation is used to calculate the am...
The prediction of acoustic resonance frequency distribution and modeling of small wattage metal-hali...
Based on a simplified approach to the prediction of acoustic resonance frequency distribution, a fre...
For energy efficiency and material cost reduction it is preferred to drive high-intensity discharge ...
In this paper, a detailed theoretical prediction and experimental verification of acoustic resonance...
Acoustic resonance (AR) phenomenon occurs in metal halide lamps and can cause light flicker, lamp ar...
An improved physical high-intensity discharge lamp model that combines the concept of acoustic reson...
The increasing speed of modern power electronics opens a way to study the stability of high-intensit...
In dieser Arbeit wird das Konzept der akustischen Resonanz in Hochdruckentladungslampen (HID) theore...
In the article, a method for preventing acoustic resonance of high-pressure lamps has been proposed....
© 2019, School of Electrical Engineering and Informatics. All rights reserved. In order to reduce th...
This work is carried out to optimize the basic parameters of a dynamic model of high-frequency high ...
Based on the physical laws of plasma discharge, a simplified but accurate model that can be easily i...
With the last decades, the high pressure sodium (HPS) lamp has been supplied in high frequency in or...
This contribution gives a description of numerical models constructed with the PLASIMO toolkit and a...
International audienceA finite element model including plasma simulation is used to calculate the am...
The prediction of acoustic resonance frequency distribution and modeling of small wattage metal-hali...
Based on a simplified approach to the prediction of acoustic resonance frequency distribution, a fre...
For energy efficiency and material cost reduction it is preferred to drive high-intensity discharge ...
In this paper, a detailed theoretical prediction and experimental verification of acoustic resonance...
Acoustic resonance (AR) phenomenon occurs in metal halide lamps and can cause light flicker, lamp ar...
An improved physical high-intensity discharge lamp model that combines the concept of acoustic reson...
The increasing speed of modern power electronics opens a way to study the stability of high-intensit...
In dieser Arbeit wird das Konzept der akustischen Resonanz in Hochdruckentladungslampen (HID) theore...
In the article, a method for preventing acoustic resonance of high-pressure lamps has been proposed....
© 2019, School of Electrical Engineering and Informatics. All rights reserved. In order to reduce th...
This work is carried out to optimize the basic parameters of a dynamic model of high-frequency high ...
Based on the physical laws of plasma discharge, a simplified but accurate model that can be easily i...
With the last decades, the high pressure sodium (HPS) lamp has been supplied in high frequency in or...
This contribution gives a description of numerical models constructed with the PLASIMO toolkit and a...
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