CENOS Documentation

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Getting Started

  • CENOS overview
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Tutorials

  • Induction Heating Templates
  • 2D Stepped Workpiece
  • 2D Scanning of Transmission Shaft
  • 3D Single Shot
  • 3D Spur Gear Hardening

FAQ

  • Frequently asked questions

How To

  • Creating 3D CAD models
  • Fluxtrol thermal calculation
  • From CAD
  • Geometry parameterization
  • How to make good CAD
  • How to run multiple simulations
  • Large rotating workpieces
  • Result evaluation
  • Scanning applications
  • Stranded Coil/Litz wire
  • Field expressions
  • Mesh : Overview
  • Mesh : Extrusion
  • Estimate effective μ
  • Movement : Scanning
  • Movement : Rotation
  • Phase change calculation

Explained

  • Algorithms
  • Mesh quality : Aspect ratio
  • Mesh quality : Taper
  • Boundary conditions
  • Geometry simplification
  • Heat Exchange
  • Material properties
  • Mesh troubleshoot
  • Role of air domain size
  • Symmetry Boundary Conditions
  • Thermal shock
  • Power control
  • Time step

Release Notes

  • v3.x
  • v2.x
  • v2018.x

Heating of large rotating workpieces

Pipe preheat

In CENOS you are not limited to using one type of domain for the whole object. You can combine multiple types of domains with different physics calculations.

A very useful application is when creating a large workpiece you can only simulate EM induction near the coil where most of the heating takes place. For the rest of the workpiece, only thermal calculations can be performed.

Example with preheating a large pipe for welding:

Practically, most of the induction heating happens near the coil, the other 80% of the pipe only has thermal processes. We can separate the pipe in two domains, and not simulate electromagnetics in the larger one. What allows this to work is the thermal interface boundary condition.

The workpiece (pipe) domain is split into two parts, only in one of which we simulate electromagnetics. Setup Setup TIP: When doing partition operation in Salome, the air domain will split the workpiece into the separate solids. You don't need to create them manually.

Advantages

The main advantage of this method is the much lower number of mesh elements and consequently calculation time. With the traditional setup the number of elements would have been around 700 000 but with the simplified method it was 450 000 elements.

Boundary conditions

Here are the boundary conditions for the pipe simulation example: Boundary conditions

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