This post discusses latest developments and enhancements in ANSYS Fluids R19 applications. Maximize your RoI and productivity with the latest ANSYS release.
How we use simulations has changed drastically since its inception. A couple of decades back simulations were majorly used for research purpose. But today it is used for various applications ranging from airplanes to microfluidics. Simulations have also evolved to handle more complex problems in smaller run times. ANSYS, a leading simulation software company is constantly innovating to make simulation easier to use and at the same time making them more robust. With every release, the GUI is getting better and the solver is getting smarter. Hence, without further ado, let’s take a dive into a few enhancements in ANSYS Fluids R19.
In this article, I will discuss some of these developments however, I recommend you to join the upcoming webinar that I will deliver on April 17.
Enhancements for Spray Modelling
The new feature in ANSYS Fluids R19 would significantly reduce the computational effort needed for spray nozzle designers to optimize product performance. CFD has been used for modelling sprays for a while now. Multiple approaches are available for spray modelling namely, full resolution (resolving all the length scales in the spray), semi-empirical (uses empirical correlation for droplet break up and stability analysis to generate droplet data), etc. ANSYS Fluids R19 has significantly enhanced spray modelling using VOF (volume of fluid)-to-DPM (discrete phase modelling) approach. As a result, you can directly track interface instabilities and surface tension effects that result in ligament and droplet formation. Due to this, you’ll get fast, accurate spray breakup and droplet distribution with minimal effort.
Accurate Preventive Maintenance
Engineers seeking to maximize up time and optimize preventive maintenance programs need to reliably predict the location and extent of erosion in pipelines that are carrying particle-laden flows. Previously, static meshes could not account for structural changes in the pipe caused by erosion and its subsequent impact on fluid flow, thereby reducing prediction accuracy. New technologies in Fluent R19 automatically couple structural changes due to erosion with a dynamic mesh so that the simulation more fully captures the degradation arising from erosion.
More Computational Power
To empower the users with more computational power, significant changes have been made to the High-Performance Computing (HPC) solution.
- High-Performance Meshing Technologies that help in meshing the complex geometries at lightning speed. Higher Productivity.
- All core solver technologies utilize four (4) cores without HPC License Checkout. HPC products add on top of these four cores. Hence, this gives you more value for money.
ANSYS Fluids R19: Other Noteworthy Enhancements
- Blade flutter modelling
- Risk assessment for Urea Solid Deposition for SCR
- Lagrangian wall film
- Thermolysis model
- Local residual scaling for multiphase
- Shar/Dispersed discretization schemes with Mixture Multiphase
- FSI: Accurate leakage flows through narrow gaps
- Species mass transport improvements
- Cavitation modelling improvements
- Native rolling ball fillets
- Variable shroud gap
- New Workbench templates
In conclusion, this article has only covered the tip of the iceberg. There is much more to learn about ANSYS Fluids R19. Join us on April 17 for the ANSYS Fluids R19 Update Webinar to get the details! Register now.