Course Objective
This course covers advanced capabilities and physics of XFlow
Upon completion of this course you will be able to:
- Understand the fundamentals of the Lattice Boltzmann method and its particular implemenation in XFlow
- Use the XFlow Discrete Phase Model (DPM) to introduce discrete particles in the flow field, the XFlow Scalar Transport model, Porous Media and Porous Jump boundary conditions
- Understand the fundamentals of acoustics simulation and the acoustic post-processing tools available
- Carry out supersonic simulations
- Understand the basics behind the co-simulation coupling scheme and learn how to execute a co-simulation with XFlow, Abaqus and the Co-simulation Engine
- Launch an XFlow case from command lines both as a shared and distributed (MPI) run or from the Advanced Computation dialog
Who should attend
This course is for Engineers with knowledge or experience in CFD
Before taking this course the completion of the following prerequisite courses (or equivalent knowledge) is required:
- Introduction to XFlow
- XFlow Intermediate
Course Overview
The overview provides details of the topics covered in each lecture. Please note that the actual course agenda may vary depending on location.
Schedule and Registration
- Click here to view the schedule
eLearning
Click here for a complete listing of 3D EXPERIENCE classes on the 3DEXPERIENCE Edu SPACE platform
