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STAR-CCM+ Documentation

Simcenter STAR-CCM+ 2406

User Guide

  1. Home
  2. 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.

  3. 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:

  4. Moving Reference Frames: Marine Propeller in Open Water

    This tutorial demonstrates the workflow for setting up an open water simulation for a marine propeller.

  5. Prerequisites

    The instructions in the Open Water 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:

      • Moving Reference Frames: Rotating Fan

        This tutorial outlines the steps that are required to set up and run a rotating radial fan analysis. It uses the Moving Reference Frame model, a steady-state approach that involves two or more frames of reference that can be stationary or moving relative to each other.

      • Rigid Body Motion: Rotating Fan

        This tutorial models the same radial fan problem as the Moving Reference Frames: Rotating Fan tutorial. However, instead of using the steady-state moving reference frame model, this tutorial uses the transient Rigid Body Motion model with actual mesh rotation.

      • DFBI: Lifeboat with Overset Mesh

        This tutorial demonstrates use of the Overset Mesh feature with free surface flow and DFBI to model the motion of a lifeboat falling into water. Simcenter STAR-CCM+ automates the grid overlapping process.

      • DFBI and AMR: Boat In Parameterized Waves

        In Dynamic Fluid-Body Interaction (DFBI) simulations, you can use Adaptive Mesh Refinement (AMR) to dynamically refine the mesh around a moving 6-DOF body based on the computed flow solution.

      • Marine Resistance Prediction: KCS Hull with a Rudder

        This tutorial demonstrates the workflow for setting up a resistance prediction simulation for a marine application.

      • Moving Reference Frames: Marine Propeller in Open Water

        This tutorial demonstrates the workflow for setting up an open water simulation for a marine propeller.

        • Prerequisites

          The instructions in the Open Water tutorial assume that you are already familiar with certain techniques in Simcenter STAR-CCM+.

        • Loading the Simulation File

          For this tutorial, you are provided with a simulation file that contains pre-defined simulation objects. Due to the large number of cells, and the time it takes the solver to run, it is recommended that you run this tutorial in parallel on at least 10 cores.

        • Reviewing the Geometry

          For open water simulations, it is recommended that your geometry model exhibits certain characteristics.

        • Selecting the Mesh Models

          For this type of simulation, the quality of the result depends to a large extent on how successful the mesh is at capturing features of the flow around the propeller.

        • Setting Up Boundary Conditions and Values

          The inlet, outlet, wall and symmetry boundary conditions must be defined on the boundaries of the newly created regions. The velocity of the flow, VA, must also be set at the inlet, and as an initial condition in the fluid domain.

        • Creating the Reports for the Performance Data

          The propeller performance data consists of the advance coefficient, the thrust coefficient, the torque coefficient, and the open water efficiency.

        • Monitoring the Propeller Performance Plot

          The propellor performance plot contains values of J and 10KQ.

        • Running the Simulation

          Set the stopping criteria and run the simulation.

        • Plotting the Propeller Performance Data

          When complete, the simulation contains all the data that is required to plot the propeller performance data and compare it with the experimental results. The tutorial starting simulation already has a basic plot for you to use.

        • Summary

          This tutorial demonstrated the workflow for setting up an open water simulation for a marine propeller.

        • Bibliography
      • Body Force Propeller Method: Marine Self-Propulsion

        One of the challenges in marine engineering is to predict the speed with which a ship hull moves through water in response to the thrust supplied by a spinning propeller. Simcenter STAR-CCM+ provides a methodology by which you can predict this speed.

      • Blade Element Method: Helicopter Rotor-Fuselage Interaction

        The rotating main rotor blades of a helicopter generate a complex flow field that leads to periodic aerodynamic loads on the airframe. Because of these aerodynamic loads, the passenger cabin can be subject to noise and vibration. These aerodynamic interactions affect the performance of helicopters and they can cause structural damage. Simcenter STAR-CCM+ provides a method for simulating the flow generated by rotor blades that does not require you to mesh the blades individually. This method allows you to predict the complex flow field around a helicopter taking into account the fuselage and rotor flow field interaction.

      • Morphing: Cylinder with Boundary Motion

        Simcenter STAR-CCM+ contains a Morphing Motion Model that enables you to define motion on boundary surfaces using several methods.

      • Overset Mesh Small Gap Modeling: Lobe Blower

        Rotary lobe blowers are valveless positive-displacement units. Fluid is pumped by two counter-rotating lobes that are mounted on parallel shafts. Fluid enters through the expanding volume at the suction side of the pump. As the lobes continue to rotate, the fluid is compressed between the lobes and the pump casing and hence transported towards the discharge.

      • Trajectory Motion: Paint Dipping of a Chassis on a Fixed Skid

        Paint dipping is a process by which a component is coated with paint in a dipping tank. Simcenter STAR-CCM+ allows you to simulate this process and therefore study the effects of different trajectories and component speeds.

      • General Remesh: Gerotor Pump with Small Gap

        A Gerotor pump is a unit with an inner and an outer rotor that have different rotational speeds related to their tooth numbers. The dynamically changing volume between the rotors transports the liquid from inlet to outlet.

    • 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.

    • 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 Open Water tutorial assume that you are already familiar with certain techniques in Simcenter STAR-CCM+.

Techniques Associated 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

Unpublished work © Siemens 2023

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