This paper is devoted to the study of the phenomenon of are re-striking in low-voltage circuit breakers. The are re-strike can be described as a sudden re-appearance in the arcing contact region when the are had been situated in the quenching chamber a few tens of microseconds before. Our experimental investigations have established that the critical arcing contact region is still crossed by a so-called residual current of the order of several amperes. A gas temperature of around 4000 K was derived both from fine electrical measurements and from a molecular spectroscopy technique just before the occurrence of the are re-strike. We also demonstrate that the re-strike takes place through the growth of the remaining current of several amperes in the arcing contact region. A numerical approach was carried out with a two-dimensional hydrodynamic code. This was found able to describe the are movement in the model circuit breaker throughout a high-current-interruption operation and, notably, to simulate the are re-strikes. The simulation exhibits the role of the flow of gas evaporated from the wall in the process of maintaining a slightly conductive medium in the are ignition region. [References: 21]
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