Introduction to AcuSolve Tutorials
This guide contains a collection of simulation cases with explicit instructions for setting up, solving and post-processing. A range of tutorials are included to illustrate the basic AcuSolve workflow and to provide guidance for setting up a variety of problems.
Some tutorials can be completed with a choice of pre-processor. Therefore, three sets of tutorials are provided here: one for HyperWorks CFD, one for SimLab, and one for HyperMesh.
Objectives
- Present the basic AcuSolve workflow.
- Introduce the capabilities of AcuSolve to new users.
- Provide guidance for the use of AcuSolve with industrial applications.
Prerequisites
No experience with AcuSolve is needed prior to running through the tutorials included in this guide. It is expected that you have some exposure to basic principles of engineering and computer-aided engineering.
For the HyperWorks CFD based tutorials, it is strongly recommended that you go through the introductory tutorial ACU-T: 1000 HyperWorks UI Introduction before proceeding to the other tutorials. This tutorial includes the steps to import the geometry model, define surface mesh controls and boundary layer parameters, and so on, which are not included in the subsequent tutorials. For these remaining tutorials, you will be provided a HyperMesh database (.hm file) which has the pre-defined mesh controls. Instructions related to post-processing have been included in all the tutorials.
For the SimLab based tutorials, it is recommended that you go through the introductory tutorial ACU-T: 1000 HyperWorks UI Introduction before proceeding to the other tutorials. This tutorial provides an overview of the panels, ribbons, and toolbars in the SimLab user interface followed by demonstration of the CFD workflow. All the SimLab tutorials start from importing the CAD geometry, generating mesh, and setting up the simulation to post-processing the results. All the tutorials are video-based and you need to have an internet connection to view the videos and to download the files.
For HyperMesh based tutorials, the introductory tutorial ACU-T: 1000 HyperWorks UI Introduction provides the instructions for setting up CFD simulations in HyperMesh starting from geometry import through post-processing. The subsequent tutorials do not have the steps related to geometry import and mesh generation. For these tutorials, you will be provided with the model HyperMesh database (.hm file), which has the meshed geometry. The tutorials then provide instructions related to CFD set up and post-processing.
Basic Workflow
HyperWorks CFD Based Tutorials
- Problem description
- Start HyperWorks CFD and open the HyperMesh database
- Validate the model
- Set up the simulation parameters and solver settings
- Assign material properties to the fluid and solid regions
- Define any porous media, body force, and/or reference frames
- Assign flow boundary conditions, such as inlet, outlet, slip, symmetry, and so on
- Define any radiation parameters
- Define any mesh motion and mesh boundary conditions
- Define surface mesh controls, boundary layer and volume mesh controls, and generate the mesh
- Define nodal output frequencies, surface and volume monitors, and nodal initial conditions
- Compute the solution using AcuSolve
- Post-process results with the plot utility (to visualize data related to the progress of the calculations) and/or with HyperView to visualize simulation data with contours, vectors, streamlines, and the like
SimLab Based Tutorials
- Problem description
- Learning outcome
- Define surface mesh controls, boundary layer and volume mesh controls, and generate the mesh
- Select the physics to be solved
- Assign material properties to the fluid and solid regions
- Define any porous media, body force, and/or reference frames
- Assign flow boundary conditions, such as inlet, outlet, slip, symmetry, and so on
- Define any radiation parameters
- Define any mesh motion and mesh boundary conditions
- Set up the simulation parameters and solver settings
- Define nodal output frequencies, surface and volume monitors, and nodal initial conditions
- Compute the solution using AcuSolve
- Post-process results (to visualize data related to the progress of the calculations and/or to visualize simulation data with contours, vectors, streamlines, and the like)
- Summary
HyperMesh Based Tutorials
- Problem description
- Start HyperMesh and import the model database
- Set up the general simulation parameters
- Specify the solver settings
- Define the body force, material models, multiplier functions, emissivity models, reference frame, mesh motion, and so on
- Set up the surface boundary conditions, such as inlet, outlet, wall, and so on, and assign material model parameters to volume regions
- Specify the nodal initial conditions, reference pressure, and so on (if needed)
- Compute the solution using AcuSolve
- Post-process results with HyperView to visualize simulation data with contours, vectors, streamlines, and the like
For tutorials that illustrate more complicated problems, such as those involving transient physics or mesh motion, details of additional tasks are provided in the tutorial.
Supporting Files
Supporting files for each tutorial are located in compressed .zip archives.
Download each of the following and save their contents in a local directory. You can also download the model packages directly from each tutorial.
HyperMesh tutorials | HyperMesh_tutorial_inputs.zip |
HyperWorks CFD tutorials | HyperWorksCFD_tutorial_inputs.zip |
For SimLab, you can download the files using the links provided on the page for each tutorial.
Typographical Conventions Used in this Manual
Set the Turbulence equation to Spalart Allmaras. |
Enter Symmetry as the name of the surface. |
Open +Z. | and set the view to
This indicates that the View menu is clicked, then the Defined Views menu item is selected, and that the button labeled +Z is clicked when the dialog opens.
Expand the | tree item.
This indicates that first the Model tree item is expanded, then the Surfaces item underneath it is expanded, and finally, the Small Inlet item under Surfaces is expanded.