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Arc cooling by an external magnetic field in low voltage dc switching

Arc cooling by an external magnetic field in low voltage dc switching
Arc cooling by an external magnetic field in low voltage dc switching
The effects of an external magnetic field on the interruption of dc switching arcs are intensively studied and considered in the design of commercial products. However, these effects are not fully understood yet. This paper presents an investigation of these effects through experimental and numerical methods. The experiments were conducted using a dc switch apparatus with controlled contact opening speed, 10-500 mm/sec, interrupting a resistive load current of up to 45 A with an applied voltage of up to 75 V. The switching arc is exposed to a uniform external magnetic field of 40 mT generated by a pair of Helmholtz coils. The arcing events are analyzed to determine the arc’s length, diameter and column conductivity. The experimental results show that, for a given voltage and current, the duration of the arc is reduced by a factor of 5 to 25 for the range studied because of a reduction of conductivity. Simulation results show that the magnetic field increases air flow velocity in the arc plasma which enhances mixing and cooling. The combined experimental and simulation results
show that the external magnetic field effectively enhances arc cooling, leading to a significant reduction in arc conductivity and duration.
Arc interruption, arc conductivity, arc cooling, dc arc simulation, dc switch, low voltage, magnetic field
1521-3331
Yan, Mingli
b1ec4d29-c6d2-4fe0-b881-2fb022fd7785
Nan, Jing
fcf86170-2ab8-4b0e-bc84-2fc267b4cf26
Golosnoy, Igor O.
40603f91-7488-49ea-830f-24dd930573d1
Chen, George
3de45a9c-6c9a-4bcb-90c3-d7e26be21819
Sharkh, Suleiman
c8445516-dafe-41c2-b7e8-c21e295e56b9
McBride, John W.
d9429c29-9361-4747-9ba3-376297cb8770
Yan, Mingli
b1ec4d29-c6d2-4fe0-b881-2fb022fd7785
Nan, Jing
fcf86170-2ab8-4b0e-bc84-2fc267b4cf26
Golosnoy, Igor O.
40603f91-7488-49ea-830f-24dd930573d1
Chen, George
3de45a9c-6c9a-4bcb-90c3-d7e26be21819
Sharkh, Suleiman
c8445516-dafe-41c2-b7e8-c21e295e56b9
McBride, John W.
d9429c29-9361-4747-9ba3-376297cb8770

Yan, Mingli, Nan, Jing, Golosnoy, Igor O., Chen, George, Sharkh, Suleiman and McBride, John W. (2026) Arc cooling by an external magnetic field in low voltage dc switching. IEEE Transactions on Components and Packaging Technologies. (doi:10.1109/TCPMT.2026.3654351).

Record type: Article

Abstract

The effects of an external magnetic field on the interruption of dc switching arcs are intensively studied and considered in the design of commercial products. However, these effects are not fully understood yet. This paper presents an investigation of these effects through experimental and numerical methods. The experiments were conducted using a dc switch apparatus with controlled contact opening speed, 10-500 mm/sec, interrupting a resistive load current of up to 45 A with an applied voltage of up to 75 V. The switching arc is exposed to a uniform external magnetic field of 40 mT generated by a pair of Helmholtz coils. The arcing events are analyzed to determine the arc’s length, diameter and column conductivity. The experimental results show that, for a given voltage and current, the duration of the arc is reduced by a factor of 5 to 25 for the range studied because of a reduction of conductivity. Simulation results show that the magnetic field increases air flow velocity in the arc plasma which enhances mixing and cooling. The combined experimental and simulation results
show that the external magnetic field effectively enhances arc cooling, leading to a significant reduction in arc conductivity and duration.

Text
Yan and Sharkh et al (2026) - IEEE TCPMT - Arc_Cooling_by_an_External_Magnetic_Field_in_Low_Voltage_dc_Switching. - Accepted Manuscript
Available under License Creative Commons Attribution.
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e-pub ahead of print date: 14 January 2026
Keywords: Arc interruption, arc conductivity, arc cooling, dc arc simulation, dc switch, low voltage, magnetic field
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Identifiers

Local EPrints ID: 509681
URI: http://eprints.soton.ac.uk/id/eprint/509681
DOI: doi:10.1109/TCPMT.2026.3654351
ISSN: 1521-3331
PURE UUID: 9ac6cd2a-d7a7-4274-af5f-54733011ead4
ORCID for Suleiman Sharkh: ORCID iD orcid.org/0000-0001-7335-8503
ORCID for John W. McBride: ORCID iD orcid.org/0000-0002-3024-0326

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Date deposited: 02 Mar 2026 17:42
Last modified: 03 Mar 2026 02:35

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Contributors

Author: Mingli Yan
Author: Jing Nan
Author: Igor O. Golosnoy
Author: George Chen
Author: Suleiman Sharkh ORCID iD
Author: John W. McBride ORCID iD

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