Coupling of Magneto–Hydrodynamics and Structural Models to Predict Wall Deformation due to Arcing

Author:

Rümpler Christian1ORCID,Zacharias Albert1ORCID,Chechare Rakesh B.2ORCID,Yu Li3ORCID,Dehning Carsten4ORCID

Affiliation:

1. Eaton Industries GmbH, Bonn, Germany

2. Eaton India Innovation Center, Pune, India

3. Eaton, Charlotte, NC, USA

4. Fraunhofer Institute SCAI, Sankt Augustin, Germany

Publisher

Institute of Electrical and Electronics Engineers (IEEE)

Subject

Management of Technology and Innovation

Reference27 articles.

1. Simplified internal arc–structural simulation;singh;Proc 21st Int Conf Exhib Electricity Distrib,0

2. Simulation study of influence of the outlet elastic baffle on pressure in arc chamber during the interrupting process of low-voltage circuit breaker

3. Modeling simulation extrapolated internal arc test results: A coupled fluid–structural transient methodology;douchin;Proc 23rd Int Conf Electricity Distrib,0

4. Internal Arc Fault Simulation in Medium Voltage Panel for Thermal and Structural Withstand

5. Low–voltage circuit breaker arc simulation including contact arm motion;rümpler;Proc IEEE 27th Int Conf Elect Contacts,0

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