AFT Releases Layers in the Latest Release
Colorado Springs, CO USA – November 14, 2023-- Applied Flow Technology (AFT) has released new version of two of their flagship software products.
AFT Fathom for modeling steady-state incompressible fluids has advanced to version 13; and AFT Arrow for modeling steady-state compressed gas flow has advanced to version 10, AFT Impulse for waterhammer and surge calculations is now on version 10, and AFT xStream is now in version 3.
With each version, AFT aims to improve and balance efficient user workflow with enhanced capabilities, and backend improvements that help the applications run smoother and faster.
This latest cycle of releases builds upon many of the features AFT users have become accustomed to while helping them streamline the process to build and analyze systems individually or as a team.
Some common new features users will see in these new versions includes:
Workspace Layers is the most prominent feature users will see in all AFT software products. Layers is similar to Adobe Photoshop and it is a powerful new tool for customizing and viewing model appearance, input data, and results - all in one place.
Four-Component Slurries Model for the Settling Slurry (SSL) Add-on Module, introduces a division of slurry solids into four distinct groups, or components, based on the particle size distribution. Unlike simpler models that account for only one or two slurry regimes, the Four Component model greatly enhances modeling flexibility by automatically determining the effects contributed by each component regime and enables more accurate and detailed analysis of slurry behavior.
- View all the New Features in AFT Fathom 13
- View all the New Features in AFT Arrow 10
- View all the New Features in AFT Impulse 10
- View all the New Features in AFT xStream 3
An engineer’s time is their most valuable resource. AFT understands the need for efficiency and accuracy. That is why with every new version, AFT software helps engineers to model efficiently while designing safer and more reliable systems.