Altair AcuSolve 2022.2 Release Notes
Highlights
- AcuSolve/EDEM 3-phase
- AcuTrace ribbon in HyperWorks CFD
New Features
- AcuSolve/EDEM 3-Phase
- Three phases may now be simulated when coupling AcuSolve with EDEM. Particles are modeled in one phase, a liquid could be modeled in the second phase, and a gas can be modeled as the third phase, for example. As many manufacturing or process-related design simulations require including both a liquid and air along with particles, this new capability widens the range of application for this unique coupling. Surface tension input should be defined and the behavior due to the contact angle definition will be respected for all three phases.
Enhancements
- AcuTrace
- The particle tracking tool, AcuTrace, previously only available from the AcuConsole interface, has been introduced as a ribbon in the HyperWorks CFD interface. This implementation supports sequential simulations of massless particles or particles with mass, static and dynamic flow fields, and mesh motion. The static mixer tutorial has been updated for the HyperWorks CFD workflow as well.
- Topology Optimization Updates
- Additional constraints can be set on outlet boundaries during a topology optimization simulation allowing you to specify the desired mass flow out of each. Flow can be balanced across all outlets or based on your needs. A strength parameter is now available which impacts how the optimizer determines the minimum volume needed to deliver the fluid.
- Binary Results File Conversion Utility
- You are now able to convert your existing AcuFieldView binary format (.fv) results files to HyperWorks binary (.h3d) results file format with the acuFv2H3D script. The H3D format is readable by all Altair post-processing tools.
- Log File Updates
- You may not be aware that surfaces selected for symmetry conditions are non-planar. A message is now written to the Log file suggesting that you inspect the geometry if the surface is expected to be planar or to consider setting a slip condition instead.
- New HyperWorks CFD-based Tutorials
- Three (3) new tutorials are available in the HyperWorks CFD user
interface. The new tutorials are:
- ACU-T: 2100: Turbulent Flow Over an Airfoil Using the SST Turbulence Model
- ACU-T: 5100: Modeling of a Fan Component Using the Fan Component – Coefficient Method
- ACU-T: 6000: Static Mixer Simulation – AcuTrace
- Updated HyperWorks CFD-based Tutorials
- Three (3) tutorials have been updated for the HyperWorks CFD user
interface. The tutorials are:
- ACU-T: 3600: Melting of Diesel Exhaust Additive within an Enclosed Tank
- ACU-T: 6106: AcuSolve - EDEM Bidirectional Coupling with Mass Transfer
- ACU-T: 6500: Flow Through Porous Medium
- New SimLab-based Tutorials
- Two (2) new tutorials are available in the SimLab user interface. The
new tutorials are:
- ACU-T: 6107 / SL 2450: AcuSolve EDEM Bidirectional 3-Phase Coupling
- ACU-T: 7201 / SL 2501: Topology Optimization with Flow Distribution
- Updated SimLab-based Tutorials
- Five (5) tutorials have been updated for the SimLab user interface. The
tutorials are:
- ACU-T: 3500 / SL 2170: Electric Potential – Automotive Fuse
- ACU-T: 6101 / SL 2431: Particle Separation in a Windshifter using AcuSolve-EDEM Unidirectional Coupling
- ACU-T: 6102 / SL 2432: Particle Separation in a Windshifter using AcuSolve-EDEM Bidirectional Coupling
- ACU-T: 6103 / SL 2433: AcuSolve – EDEM Bidirectional Coupling with Heat Transfer
- ACU-T: 6104 / SL 2440: AcuSolve – EDEM Bidirectional Coupling with Non-Spherical Particles
- New HyperWorks CFD-based Validation Cases
- One (1) new validation case is available in the SimLab user interface.
The new validation case is:
- Ideal Gas Compression in an Actuating Piston
- New SimLab-based Validation Cases
- Four (4) new validation cases are available in the SimLab user
interface. The new validation cases are:
- Turbulent Flow Through a Heated Periodic Channel
- Turbulent Flow Past a Wall-Mounted Hump
- Turbulent Flow Over an Oscillating Rigid Body Assembly
- Laminar Couette Flow with Imposed Pressure Gradient and Heated Walls
Resolved Issues
- An issue with IMPI runs not using InfiniBand interconnect has been corrected.
- Improvements to SSI search on large number of procs.
- A correction has been made to properly include the rotational motion of a fluid region when calculating a time-averaged flow field for the time_average_velocity_regular variable.
- AcuRun on Linux now handles parentheses in directory names.
- An issue where unphysical temperatures were observed in AcuSolve/EDEM bi-directionally coupled runs with mass transfer has been corrected.
- Multiple volume sets are now accepted in the specification of the design space volume for topology optimization.
- Corrections have been made to the electric potential tutorial in SimLab, ACU-T: 3500 / SL 2170.