It is one of the most powerful CFD solver and main software in Ansys. It is a general purpose computational fluid dynamics (CFD) tool that can solve many processes such as internal flow, external flow, turbulence, combustion, heat transfer, etc. Ansys Fluent has various models in physics solutions, especially turbulence, reaction, heat transfer, acoustics and multiphase flow.

Ansys CFX is a high-performance computational fluid dynamics (CFD) software recommended for turbomachinery and general simulations. It quickly and robustly delivers reliable and accurate solutions for a wide range of CFD and multiphysics applications. It is known for its exceptionally accurate, robust and fast operation with turbomachinery such as pumps, fans, compressors, gas and hydraulic turbines.

Turbomachinery design and performance optimization requires in-depth understanding and fine-tuning of the factors that affect performance. Ansys Turbomachinery offers computer-aided simulations to develop more efficient turbomachinery. With computational fluid dynamics (CFD) tools, flow characteristics inside turbomachinery can be analyzed and performance evaluated. It enables reliable and optimized design of machine elements such as pumps, turbines, blowers and compressors used to generate thrust. Optimize your designs faster and more cost-effectively with Ansys Turbomachinery.

Ansys Polyflow is a powerful tool that uses the finite element method to model manufacturing processes with fluids with complex material properties. Widely used in the polymer, rubber, glass, food and cement industries, the software can model a variety of processes including extrusion, blow molding, thermoforming, and pressing. Ansys Polyflow optimizes production processes by simulating flow in extruders as well as complex phenomena such as foaming, chemical reactions and viscoelasticity.

Ansys Forte is a specialized CFD tool developed to model internal combustion engines quickly and efficiently. Forte reduces pre-processing steps by generating an automated dynamic solution network, allowing users to use validated combustion kinetics, ignition predictions, emission and flame dynamics models. It can also solve rotating mechanisms with the moving surface option and accurately and quickly solve spray and spray-wall interaction models.

FENSAP-ICE is a three-dimensional, state-of-the-art design and certification simulation software that provides cost-effective advanced aerodynamic and anti-icing solutions by addressing five main aspects of in-flight aircraft icing. With FENSAP-ICE, users can model airflow, droplet and ice crystal impact, ice deposition on surfaces and aerodynamic degradation. They can also calculate the effects and heat loads of anti-icing and de-icing treatments. With this software, companies can reduce the number of expensive and difficult tests.