AFT Software Products
Whether you’re modeling gas or liquid piping systems, perfecting your system design, studying your system’s transient behavior or need fluid property data, AFT has the engineering software tools for you. Our industry-leading fluid dynamic simulation software is used by a variety of industries around the world to develop design solutions and troubleshoot existing systems.
Engineers use AFT for several reasons. The best reason is that AFT is a highly accurate calculation software that saves engineers from using extensive hand calculations or spreadsheets. What used to take days or weeks is able to be accomplished with AFT’s pipe flow software in a short amount of time. The man-hours companies save by using AFT modeling and simulation software pays for software several times over.
We might be biased, but when engineers tell us it is the best fluid flow software on the market… we can’t argue. Our staff of engineers has worked for years to ensure it is a tool which delivers solid modeling calculations, incorporates robust features, and give users an intuitive interface.
We look forward to working with you.
AFT Fathom Add-On Modules
Models the effects of pumping fluids containing settling solids using the Wilson/GIW method.
Identifies input parameters that yield desired output values and simulates control functions
Models dynamic system behaviour and how critical system parameters vary over time
Evaluates the complex interaction of system variables to reveal combinations of cost savings
AFT Arrow Add-On Modules
Identifies input parameters that yield desired output values and simulates control functions
Evaluates the complex interaction of system variables to reveal combinations of cost savings
AFT Impulse Add-On Modules
Helps identify and avoid resonant frequencies in systems, especially in those caused by positive displacement pumps.
The only commercial software solution that can model both non-settling and settling slurry waterhammer effects.
AFT xStream
AFT xStream Add-On Modules
Helps identify and avoid resonant frequencies in systems, especially in those caused by reciprocating compressors