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Tutorials
Tutorials show you how to use Simcenter STAR-CCM+ for various applications in a step-by-step format with recommendations for setup, initialization and steps of the solution process specific to the application. Macro and simulation files are available for download for a large proportion of cases.
Electromagnetism
The following tutorials illustrate features for solving problems that involve electromagnetic fields.
Ohmic Heating: Domestic Fuse
This tutorial demonstrates some of the capabilities of the Ohmic Heating model available in Simcenter STAR-CCM+.
Prerequisites
The instructions in the Ohmic Heating: Domestic Fuse tutorial assume that you are already familiar with certain techniques in Simcenter STAR-CCM+.

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Tutorials
Tutorials show you how to use Simcenter STAR-CCM+ for various applications in a step-by-step format with recommendations for setup, initialization and steps of the solution process specific to the application. Macro and simulation files are available for download for a large proportion of cases.
- Using Tutorial Macros and Files
  Macros, input files, and final simulation files for a range of tutorials are provided as an optional download package on the Support Center website. These macros and final simulation files are provided as an aid to the written tutorials, so that you can check your final results against the downloaded files, or against a simulation that is built and run using the macros.
- Introduction
  Welcome to the Simcenter STAR-CCM+ introductory tutorial. In this tutorial, you explore the important concepts and workflow. Complete this tutorial before attempting any others.
- Foundation Tutorials
  The foundation tutorials showcase the major features of Simcenter STAR-CCM+ in a series of short tutorials.
- Geometry
  The tutorials in this set illustrate various Simcenter STAR-CCM+ features for creating and working with parts and 3D-CAD.
- Mesh
  The tutorials in this set illustrate various STAR-CCM+ features for building CFD meshes.
- Incompressible Flow
  The tutorials in this set illustrate various Simcenter STAR-CCM+ features for incompressible fluid flows as well as porosity and solution recording
- Compressible Flow
  The tutorials in this set illustrate various Simcenter STAR-CCM+ features for compressible fluid flows as well as harmonic balance.
- Heat Transfer and Radiation
  The tutorials in this set illustrate various Simcenter STAR-CCM+ features for heat transfer, radiation, and thermal comfort.
- Multiphase Flow
  The tutorials in this set illustrate various Simcenter STAR-CCM+ features for simulating multiphase fluid flow problems
- Discrete Element Method
  The tutorials in this set illustrate various Simcenter STAR-CCM+ features for simulating Discrete Element Method problems
- Motion
  The tutorials in this set illustrate various STAR-CCM+ features for simulating problems with moving geometries and meshes, dynamic fluid body interaction, and rigid body motion:
- Reacting Flow
  The tutorials in this set illustrate various Simcenter STAR-CCM+ features for simulating reacting flows such as combustion.
- Solid Stress
  The tutorials in this set illustrate various Simcenter STAR-CCM+ features for computing deformation, strain, and stresses in solid regions. They also show how such computations can be coupled to the fluid behavior in an analysis of fluid-structure interaction.
- Aeroacoustics
  The tutorials in this set illustrate various Simcenter STAR-CCM+ features for solving aeroacoustic simulations.
- Electromagnetism
  The following tutorials illustrate features for solving problems that involve electromagnetic fields.
  - Ohmic Heating: Domestic Fuse
    This tutorial demonstrates some of the capabilities of the Ohmic Heating model available in Simcenter STAR-CCM+.
    - Prerequisites
      The instructions in the Ohmic Heating: Domestic Fuse tutorial assume that you are already familiar with certain techniques in Simcenter STAR-CCM+.
    - Importing the Surface Mesh and Naming the Simulation
      A CAD file containing the fuse assembly has been prepared for this analysis.
    - Examining the Imported Geometry
      The imported CAD parts, which represent the different parts of the fuse and its holder, are contained in the Geometry > Parts manager node.
    - Increasing the Tessellation Density of the Fuse Wire
      To ensure that the thin fuse wire has a well-defined surface, increase the tessellation density of the imported surface to represent the surface with a higher density of triangles.
    - Assigning Geometry Parts to Regions
      Assign geometry parts to regions before surface or volume meshing takes place. Simcenter STAR-CCM+ allows you to create regions and boundaries that are based on the parts and their surfaces.
    - Setting up the Mesh
      Use the surface remesher with the polyhedral mesher to create the volume mesh.
    - Adding a Volumetric Control
      Add a volumetric control to provide adequate resolution of the volume mesh within the wire. When adding volumetric controls, it is first necessary to create the volume shape within which custom mesh control applies, and thereafter to select this shape within a volumetric control itself.
    - Generating the Mesh
      You can now create the volume mesh for the simulation.
    - Specifying Physics Models and Material Properties
      You can now specify the physical models and the material properties for this simulation.
    - Assigning Physics Continua
      For a multi-region simulation, you must assign a physics continuum to each region. Through this assignment, the different physical models and material properties are assigned to the respective region.
    - Setting Global Initial Conditions
      Specify the initial electrical potential value for the Copper (Ohmic Heating) model.
    - Defining Boundary Conditions
      Set the boundary conditions for the Ceramic, Clip+ve, and Clip-ve regions.
    - Setting up Reports, Monitors, and Plots
      By default Simcenter STAR-CCM+ produces a residuals plot which can be used to monitor the convergence of the solution. It is useful to create more monitors to help in assessing convergence.
    - Setting up a Plane Section
      You can use a plane section to visualize the temperature within the parts.
    - Setting Up a Scalar Scene
      To display the electric potential for the two clip regions and the temperature for the fuse cross-section derived part, you create a single scalar scene.
    - Setting Solver Parameters
      You change the solver settings to help the solution converge quickly and maintain stability.
    - Setting Stopping Criteria
      You now specify for how long the simulation runs.
    - Running the Simulation
      The simulation is now ready to be run.
    - Summary
  - Magnetic Vector Potential: Axial Flux Motor
    This tutorial demonstrates how to use the Finite Element Magnetic Potential Vector model to solve for the magnetic flux produced by the magnets of an axial-flux motor.
  - Magnetohydrodynamics: Stirring Induced by Excitation Coils
    In this tutorial, you simulate the electromagnetic stirring of molten metal induced by excitation coils.
  - Airgap Remeshing: Electronic Speedometer
    Electric machine simulations require a conformal mesh at the interfaces between different components. Airgap remeshing is a meshing technique that allows you to generate and maintain conformal meshes between regions that are in relative motion.
  - Higher Order Magnetic Vector Potential: Axial Flux Motor
    Axial flux motors have, over recent years, become increasingly more popular for aerospace and automotive applications. One of the main advantages of axial flux motors is their high power density, which allows for high efficiency in compact designs.
  - Electric Circuits: Full-Wave Rectifier
    In power electronics, a full-wave rectifier provides rectification from an AC (Alternating Current) wave to a DC supply. Simcenter STAR-CCM+ provides simulation capabilities that allow you to investigate the effect of circuit component choices on the electromagnetic performance of such devices.
- Electrochemistry
  The following tutorial demonstrates chemical reactions induced by an electrical current.
- Battery
  The tutorials in this set illustrate various Simcenter STAR-CCM+ features for setting up a battery model:
- Automation
  The tutorials in this set illustrate various Simcenter STAR-CCM+ automation and macro features.
- Design Exploration
  The tutorials in this set illustrate various features for running design exploration studies in Design Manager.
- Coupling with CAE Codes
  The tutorials in this set illustrate various Simcenter STAR-CCM+ features for coupling with CAE codes:
- Analysis Methods
  The tutorials in this set illustrate various Simcenter STAR-CCM+ features for analysing and visualizing simulation data.
- Simcenter STAR-CCM+ In-cylinder
  The tutorials in this set illustrate features for simulating internal combustion engines in Simcenter STAR-CCM+ using the dedicated add-on Simcenter STAR-CCM+ In-cylinder.

Prerequisites

The instructions in the Ohmic Heating: Domestic Fuse tutorial assume that you are already familiar with certain techniques in Simcenter STAR-CCM+.


Technique	Tutorial
The Simcenter STAR-CCM+ workflow	Introduction to STAR-CCM+
Using visualization tools, scenes and plots	Introduction to STAR-CCM+

If you have not already done so, download the tutorial files bundle. See Downloading the Tutorial Files from the Support Center Portal.