07 Feb 2012

Electric field

Thanks to import capabilities and varying mesh tools, Flux becomes essential for simulation of industrial dielectric devices. The high level of mesh quality required for electric field computation can be easily obtained with Flux. Accurate results with fast computation are key points for 2D and 3D dielectric designs.

 

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software CEDRAT Software Solution

Flux: 2D and 3D thermal & electromagnetic FEM analysis
application Applications

- Circuit breaker / Arc chambers

- Insulators

- Cable bushings

- Transformers
domain Domains

Power industry, T&D, HV and MV devices manufactures…
parameters A complete various parameters influence to study

- Study the influence of material dielectric properties

- Check electric field variation vs. distance between conductors

- Track maximum field to prevent dielectric breakdown

- Design and optimize deflector’s shape

- Study the influence of parasite conductors (Pollution layer)

output Outputs

- Electric field colour shade

- Electric potential isolines

- Capacitance

- Dielectric losses
advantage Advantages

- Advanced CAD import and healing capabilities: from neutral formats (STEP, IGES, DXF,...) to native formats  ( SAT, INVENTOR , Pro_E, Catia V4, Catia V5,...)

- Automatic mesh

- Infinite box: for open boundaries and far fields computation while keeping a light study domain

- Easy multiparametric studies

- Fast solving process

reference References

Schneider-Electric, AREVA...
online presentation


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