Ansys CFX®

Leverage the power of Ansys CFX for highly accurate and robust fluid dynamics simulations. Ansys CFX is a high-performance computational fluid dynamics (CFD) software recognized for its superior accuracy, robustness, and speed.

Overview

Ansys CFX is a leading Computational Fluid Dynamics (CFD) software, renowned for its high-performance capabilities and precision in simulating turbomachinery applications, designed for robust and accurate fluid simulations in pumps, compressors, fans, and turbines.

It includes advanced capabilities such as transient blade row methods, rotor-stator interaction models, high-performance computing (HPC) scalability, and sophisticated turbulence modeling options like the Generalized k-ω (GEKO) model.

Additionally, CFX supports complex material and thermal simulations, such as real-gas properties and subcooled wall boiling, making it an essential tool for optimizing efficiency and performance in rotating machinery.

It is specifically designed to address the most complex fluid dynamics challenges across various industries, helping you optimize product performance, reduce development costs, and accelerate time-to-market.

Ansys CFX quickly solves turbomachinery problems and provides you with more time to focus on your design.

Key Features & Capabilities:

Superior Turbomachinery Simulation
Ansys CFX excels in turbomachinery simulations, offering advanced models for rotating machinery and high-fidelity predictions. It is ideal for designing and optimizing pumps, turbines, compressors, and fans.
High Accuracy and Robustness
The software provides highly accurate simulations due to its advanced numerical algorithms and robust solver technology. This ensures reliable performance predictions and helps mitigate risks early in the design process.
Fast and Scalable
Ansys CFX leverages parallel processing capabilities, significantly reducing simulation times and enabling the handling of large-scale, complex models.
Comprehensive Physics Modelling
Ansys CFX offers extensive capabilities for modelling multiphase flows, turbulence, combustion, and more, allowing for detailed and realistic simulations.
Blade Design & Optimization
Supports aeromechanics and nuclear wall boiling modeling, with advanced material capabilities.
User-Friendly Interface
With a focus on ease-of-use, Ansys CFX provides intuitive setup, efficient workflows, and robust post-processing tools, making it accessible to both novice and experienced users.
Integration with Ansys Ecosystem
Seamlessly integrate Ansys CFX with other Ansys tools to perform multiphysics simulations.

Why partner with Simtec?

Partnering with Simtec ensures that you receive not only the best CFD tools but also exceptional support and services. Here’s why you should choose us:

  • Expert Guidance: Our team of experienced engineers provides personalized support to help you get the most out of Ansys CFX.
  • Comprehensive Training: We offer extensive training programs to enhance your team's capabilities and ensure they are proficient in using Ansys CFX.
  • Cost-Effective Solutions: By leveraging our expertise, you can optimize your simulations, reducing both development time and costs.
  • Customer-Centric Approach: We prioritize your needs, offering tailored solutions and responsive support to ensure your success.
  • Explore the potential of Ansys CFX with Simtec and transform your CFD simulations into a powerful tool for innovation and efficiency.

Explore the potential of Ansys CFX® with Simtec and transform your CFD simulations into a powerful tool for innovation and efficiency.

Applications Across Industries

Ansys CFX is utilized in a wide range of industries to optimize product performance, increase efficiency, and reduce costs. Key application areas include:

  • ansys-aerospace

    Aerospace

    Enhance aerodynamic designs, improve fuel efficiency, and analyze thermal management systems.
  • ansys-autonomous-battery-simulation-social-final

    Automotive

    Optimize engine performance, reduce emissions, and improve HVAC systems.
  • ansys-wind-turbines-final

    Energy

    Simulate turbine performance, optimize heat exchangers, and model fluid flow in pipelines.
  • chemical-processing-facility-slide-ansys-cfx

    Chemical Processing

    Improve mixing processes, enhance reactor designs, and ensure safe operation under various conditions.
  • ansys-fensap-ice-figure

    Marine

    Analyze hull performance, optimize propulsion systems, and improve overall vessel efficiency.