Advanced physics for thermo-fluid systems engineering

Analyze and study complex physics

Large tanks in a laboratory

Analyze complex physical phenomena that are critical to ensuring the safe and efficient operation of your thermo-fluid systems. Advanced capabilities are available to accurately model the non-linear behavior of non-Newtonian fluids and two-phase flows. You can model the complex flow paths in rotating machines like gas turbines accounting for the effects of rotation on the fluid flow.

During the development process, all of the capabilities are rigorously tested against theoretical results and public literature to ensure result accuracy and consistency. This gives you the confidence to use the digital twin throughout the entire life cycle of your thermo-fluid system to understand its behavior, optimize its performance, and ensure its safety.

Advanced physics for thermo-fluid systems engineering

Analyze complex physical phenomena that are critical to ensuring the safe and efficient operation of your thermo-fluid systems. Advanced capabilities are available to accurately model the non-linear behavior of non-Newtonian fluids and two-phase flows. You can model the complex flow paths in rotating machines like gas turbines accounting for the effects of rotation on the fluid flow.

During the development process, all of the capabilities are rigorously tested against theoretical results and public literature to ensure result accuracy and consistency. This gives you the confidence to use the digital twin throughout the entire life cycle of your thermo-fluid system to understand its behavior, optimize its performance, and ensure its safety.

Simcenter Flomaster

Simcenter Flomaster

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