2019
DOI: 10.1109/tps.2018.2880950
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Determination of Axial Electric Field Distribution in Blown Arcs With Differential Method

Abstract: DC switchgear using gas circuit breakers (CB) in parallel to a LC-resonant path is used for decades already. This "passive oscillation" topology relies on negative damping of the oscillating current, made possible by the fact that the voltage drop over the CB decreases with increasing current. This concept is cheap and reliable, since it does not require any active components besides the mechanical breaker. However, the achievable breaking times and maximum interruptable current amplitude highly depend on the … Show more

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Cited by 2 publications
(9 citation statements)
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“…Since the model breaks down in the downstream section, this was done only up to position 100 mm, which is just upstream the throat and shown in figure 10b. These values are around 400 V to 600 V, which agrees well with the experimental arc voltage up to the throat position as shown in [5], which were in the same range for the flat part of the u(i) curve.…”
Section: Discussion and Comparison With 1d Modelsupporting
confidence: 89%
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“…Since the model breaks down in the downstream section, this was done only up to position 100 mm, which is just upstream the throat and shown in figure 10b. These values are around 400 V to 600 V, which agrees well with the experimental arc voltage up to the throat position as shown in [5], which were in the same range for the flat part of the u(i) curve.…”
Section: Discussion and Comparison With 1d Modelsupporting
confidence: 89%
“…There is little variation in the converging segment, only around the throat there are significant changes. Figure 6 shows the electric field as function of axial position, which is in line with the results of [5]. The highest field is around the throat, with a gradual increase towards that position in the upstream part.…”
Section: D Modelsupporting
confidence: 83%
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