Linking a physical arc model with a black box arc model and verification

Abstract-At the high voltage laboratory at ETH Zurich switching arcs are investigated in order to understand the physical processes that determine the relationship between current and arc voltage in gas blast circuit breakers. Experiments are performed using a breaker prototype with many independently controllable parameters, and very versatile pulsed DC current source. Previous work showed that the gas pressure has a strong influence on the arc voltage, therefore changing the fluid dynamic conditions in which the arc burns can be used to create different dU/dI characteristics. In the presented paper a method to quantify these changes is presented, and the impact of the axial position of the contacts in a model gas circuit breaker on the voltage as function of current are discussed. The influence of the contact position on the average dU/dI curve were small, but the fluctuations around this average value change depending on the nozzle section in which the arc burns. These results will be used to improve the theoretical understanding of the different arc cooling mechanisms, which in turn should enable the design of new geometries that result in a more favorable arc voltage characteristics for passive oscillation HVDC circuit breaker topologies in the future.

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“…Such a model has to be able to describe different regimes, like the work of [7], [8] does by combining a Mayr and a Cassie term.…”

Section: A Determination Of Steady State Du/di Characteristicsmentioning

confidence: 99%

Effects of nozzle and contact geometry on arc voltage in gas circuit-breakers

Bort

Franck

2016

2016 IEEE International Conference on High Voltage Engineering and Application (ICHVE)

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“…(1) [12], [13], [14], [15], [16]. This equation, also referred to as energy balance equation, describes the change of the stored energy content Q in the arc column resulting from the imbalance between ohmic heating P heat and cooling P cool :…”

Section: Black-box-modeling Of Arcsmentioning

confidence: 99%

Improved Method for Direct Black-Box Arc Parameter Determination and Model Validation

Walter

Franck

2014

IEEE Trans. Power Delivery

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“…They may also be capable of making and carrying, for a specified duration, the rated short-circuit and related Original scientific paper/Izvorni naučni rad 4 G&W S.r.l. Foggia, Italy, 5 G&W Electric Co. Bolingbrook, USA energobos@bih.net.ba Paper submitted: July 2021 Paper accepted: September 2021 peak currents under abnormal conditions, such as a short circuit [1]. A switch is not required to break short-circuit currents and therefore may be used in combination with a short-circuit current interrupting device, usually a fuse.…”

Section: Introductionmentioning

confidence: 99%

Analysis and Tests of the Impact of Permanent Magnets on Current Interruption in a Medium Voltage Rotary Load Break Switch

Delic

Smajkić

Dullni³

et al. 2021

B&H Electrical Engineering

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The breaking capacity of a medium voltage (MV) rotary SF6 load break switch (LBS) can be improved by incorporating permanent magnets into the stationary contacts. The magnetic field is intended to blow the switching arc root towards a recessed space at the stationary contacts thereby preventing reignition of the arc after current zero. Making and breaking tests of load current 630 A were performed comparing the switching performance of load break switches equipped without a permanent magnet, with a ferrite and with a neodymium magnet. The impact of different polarity arrangements of the magnets in the three phases is also considered and analysed. In order to understand the arc behaviour caused by the effect of permanent magnet, arcing times and arc voltage were measured and evaluated. The results show that the arc voltage depends on the direction of the electromagnetic force, which is determined by the phase current direction but also by the polarity of the magnets. When the force is directed towards the recessed space at the stationary contacts, the arc voltage is notably higher than in the case where the arc is blown in the opposite direction. The higher arc voltage is a reliable indication that the length of the arc is increased, which significantly reduces the risk of both thermal and dielectric breakdowns after the first current zero. The consequences are noticed first in the reduction of the number of missed current zeroes and second in shorter minimum arcing times. An adverse arrangement of the magnet polarity in the three phases increases the number of missed current zeroes.

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Linking a physical arc model with a black box arc model and verification

Cited by 36 publications

References 3 publications

Effects of nozzle and contact geometry on arc voltage in gas circuit-breakers

Effects of nozzle and contact geometry on arc voltage in gas circuit-breakers

Improved Method for Direct Black-Box Arc Parameter Determination and Model Validation

Analysis and Tests of the Impact of Permanent Magnets on Current Interruption in a Medium Voltage Rotary Load Break Switch

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